// Copyright (C) 2013-2023 Internet Systems Consortium, Inc. ("ISC") // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace isc::asiolink; using namespace isc::config; using namespace isc::data; using namespace isc::dhcp; using namespace isc::dhcp::test; using namespace isc::hooks; using namespace isc::stats; using namespace isc::util; using namespace std; namespace { // Checks if hooks are implemented properly. TEST_F(Dhcpv6SrvTest, Hooks) { NakedDhcpv6Srv srv(0); // check if appropriate hooks are registered int hook_index_dhcp6_srv_configured = -1; int hook_index_buffer6_receive = -1; int hook_index_buffer6_send = -1; int hook_index_lease6_renew = -1; int hook_index_lease6_release = -1; int hook_index_lease6_rebind = -1; int hook_index_lease6_decline = -1; int hook_index_pkt6_receive = -1; int hook_index_pkt6_send = -1; int hook_index_select_subnet = -1; int hook_index_leases6_committed = -1; int hook_index_host6_identifier = -1; // check if appropriate indexes are set EXPECT_NO_THROW(hook_index_dhcp6_srv_configured = ServerHooks::getServerHooks() .getIndex("dhcp6_srv_configured")); EXPECT_NO_THROW(hook_index_buffer6_receive = ServerHooks::getServerHooks() .getIndex("buffer6_receive")); EXPECT_NO_THROW(hook_index_buffer6_send = ServerHooks::getServerHooks() .getIndex("buffer6_send")); EXPECT_NO_THROW(hook_index_lease6_renew = ServerHooks::getServerHooks() .getIndex("lease6_renew")); EXPECT_NO_THROW(hook_index_lease6_release = ServerHooks::getServerHooks() .getIndex("lease6_release")); EXPECT_NO_THROW(hook_index_lease6_rebind = ServerHooks::getServerHooks() .getIndex("lease6_rebind")); EXPECT_NO_THROW(hook_index_lease6_decline = ServerHooks::getServerHooks() .getIndex("lease6_decline")); EXPECT_NO_THROW(hook_index_pkt6_receive = ServerHooks::getServerHooks() .getIndex("pkt6_receive")); EXPECT_NO_THROW(hook_index_pkt6_send = ServerHooks::getServerHooks() .getIndex("pkt6_send")); EXPECT_NO_THROW(hook_index_select_subnet = ServerHooks::getServerHooks() .getIndex("subnet6_select")); EXPECT_NO_THROW(hook_index_leases6_committed = ServerHooks::getServerHooks() .getIndex("leases6_committed")); EXPECT_NO_THROW(hook_index_host6_identifier = ServerHooks::getServerHooks() .getIndex("host6_identifier")); EXPECT_TRUE(hook_index_dhcp6_srv_configured > 0); EXPECT_TRUE(hook_index_buffer6_receive > 0); EXPECT_TRUE(hook_index_buffer6_send > 0); EXPECT_TRUE(hook_index_lease6_renew > 0); EXPECT_TRUE(hook_index_lease6_release > 0); EXPECT_TRUE(hook_index_lease6_rebind > 0); EXPECT_TRUE(hook_index_lease6_decline > 0); EXPECT_TRUE(hook_index_pkt6_receive > 0); EXPECT_TRUE(hook_index_pkt6_send > 0); EXPECT_TRUE(hook_index_select_subnet > 0); EXPECT_TRUE(hook_index_leases6_committed > 0); EXPECT_TRUE(hook_index_host6_identifier > 0); } /// @brief a class dedicated to Hooks testing in DHCPv6 server /// /// This class has a number of static members, because each non-static /// method has implicit 'this' parameter, so it does not match callout /// signature and couldn't be registered. Furthermore, static methods /// can't modify non-static members (for obvious reasons), so many /// fields are declared static. It is still better to keep them as /// one class rather than unrelated collection of global objects. class HooksDhcpv6SrvTest : public Dhcpv6SrvTest { public: /// @brief creates Dhcpv6Srv and prepares buffers for callouts HooksDhcpv6SrvTest() : Dhcpv6SrvTest() { HooksManager::setTestMode(false); bool status = HooksManager::unloadLibraries(); if (!status) { cerr << "(fixture ctor) unloadLibraries failed" << endl; } // Allocate new DHCPv6 Server srv_.reset(new NakedDhcpv6Srv(0)); // Clear static buffers resetCalloutBuffers(); io_service_ = boost::make_shared(); // Reset the hook system in its original state HooksManager::unloadLibraries(); // Clear statistics. StatsMgr::instance().removeAll(); } /// @brief destructor (deletes Dhcpv6Srv) ~HooksDhcpv6SrvTest() { // Clear static buffers resetCalloutBuffers(); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("dhcp6_srv_configured"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("buffer6_receive"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("buffer6_send"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("pkt6_receive"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("pkt6_send"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("subnet6_select"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("leases6_committed"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("lease6_renew"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("lease6_release"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("lease6_rebind"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("lease6_decline"); HooksManager::preCalloutsLibraryHandle().deregisterAllCallouts("host6_identifier"); HooksManager::setTestMode(false); bool status = HooksManager::unloadLibraries(); if (!status) { cerr << "(fixture dtor) unloadLibraries failed" << endl; } // Clear statistics. StatsMgr::instance().removeAll(); } /// @brief creates an option with specified option code /// /// This method is static, because it is used from callouts /// that do not have a pointer to HooksDhcpv6SrvTest object /// /// @param option_code code of option to be created /// /// @return pointer to create option object static OptionPtr createOption(uint16_t option_code) { uint8_t payload[] = { 0xa, 0xb, 0xc, 0xe, 0xf, 0x10, 0x11, 0x12, 0x13, 0x14 }; OptionBuffer tmp(payload, payload + sizeof(payload)); return OptionPtr(new Option(Option::V6, option_code, tmp)); } /// @brief Checks if the state of the callout handle associated with a query /// was reset after the callout invocation. /// /// The check includes verification if the status was set to 'continue' and /// that all arguments were deleted. /// /// @param query pointer to the query which callout handle is associated /// with. void checkCalloutHandleReset(const Pkt6Ptr& query) { CalloutHandlePtr callout_handle = query->getCalloutHandle(); ASSERT_TRUE(callout_handle); EXPECT_EQ(CalloutHandle::NEXT_STEP_CONTINUE, callout_handle->getStatus()); EXPECT_TRUE(callout_handle->getArgumentNames().empty()); } /// @brief Test callback that stores callout name and passed parameters. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int buffer6_receive_callout(CalloutHandle& callout_handle) { callback_name_ = string("buffer6_receive"); callout_handle.getArgument("query6", callback_qry_pkt6_); callback_argument_names_ = callout_handle.getArgumentNames(); if (callback_qry_pkt6_) { callback_qry_options_copy_ = callback_qry_pkt6_->isCopyRetrievedOptions(); } return (0); } /// @brief Test callback that changes first byte of client-id value. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int buffer6_receive_change_clientid_callout(CalloutHandle& callout_handle) { Pkt6Ptr pkt; callout_handle.getArgument("query6", pkt); // If there is at least one option with data if (pkt->data_.size() > Pkt6::DHCPV6_PKT_HDR_LEN + Option::OPTION6_HDR_LEN) { // Offset of the first byte of the first option. Let's set this byte // to some new value that we could later check pkt->data_[Pkt6::DHCPV6_PKT_HDR_LEN + Option::OPTION6_HDR_LEN] = 0xff; } // Carry on as usual return buffer6_receive_callout(callout_handle); } /// @brief Test callback that deletes client-id. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int buffer6_receive_delete_clientid_callout(CalloutHandle& callout_handle) { Pkt6Ptr pkt; callout_handle.getArgument("query6", pkt); // this is modified SOLICIT (with missing mandatory client-id) uint8_t data[] = { 1, // type 1 = SOLICIT 0xca, 0xfe, 0x01, // trans-id = 0xcafe01 0, 3, // option type 3 (IA_NA) 0, 12, // option length 12 0, 0, 0, 1, // iaid = 1 0, 0, 0, 0, // T1 = 0 0, 0, 0, 0 // T2 = 0 }; OptionBuffer modifiedMsg(data, data + sizeof(data)); pkt->data_ = modifiedMsg; // Carry on as usual return buffer6_receive_callout(callout_handle); } /// @brief Test callback that sets skip flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int buffer6_receive_skip_callout(CalloutHandle& callout_handle) { callout_handle.setStatus(CalloutHandle::NEXT_STEP_SKIP); // Carry on as usual return buffer6_receive_callout(callout_handle); } /// @brief Test callback that sets drop flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int buffer6_receive_drop_callout(CalloutHandle& callout_handle) { callout_handle.setStatus(CalloutHandle::NEXT_STEP_DROP); // Carry on as usual return buffer6_receive_callout(callout_handle); } /// @brief Test callback that stores callout name and passed parameters. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int pkt6_receive_callout(CalloutHandle& callout_handle) { callback_name_ = string("pkt6_receive"); callout_handle.getArgument("query6", callback_qry_pkt6_); callback_argument_names_ = callout_handle.getArgumentNames(); if (callback_qry_pkt6_) { callback_qry_options_copy_ = callback_qry_pkt6_->isCopyRetrievedOptions(); } return (0); } /// @brief Test callback that changes client-id value. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int pkt6_receive_change_clientid_callout(CalloutHandle& callout_handle) { Pkt6Ptr pkt; callout_handle.getArgument("query6", pkt); // Get rid of the old client-id pkt->delOption(D6O_CLIENTID); // Add a new option pkt->addOption(createOption(D6O_CLIENTID)); // Carry on as usual return pkt6_receive_callout(callout_handle); } /// @brief Test callback that deletes client-id. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int pkt6_receive_delete_clientid_callout(CalloutHandle& callout_handle) { Pkt6Ptr pkt; callout_handle.getArgument("query6", pkt); // Get rid of the old client-id pkt->delOption(D6O_CLIENTID); // Carry on as usual return pkt6_receive_callout(callout_handle); } /// @brief Test callback that sets skip flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int pkt6_receive_skip_callout(CalloutHandle& callout_handle) { Pkt6Ptr pkt; callout_handle.getArgument("query6", pkt); callout_handle.setStatus(CalloutHandle::NEXT_STEP_SKIP); // Carry on as usual return pkt6_receive_callout(callout_handle); } /// @brief Test callback that sets drop flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int pkt6_receive_drop_callout(CalloutHandle& callout_handle) { Pkt6Ptr pkt; callout_handle.getArgument("query6", pkt); callout_handle.setStatus(CalloutHandle::NEXT_STEP_DROP); // Carry on as usual return pkt6_receive_callout(callout_handle); } /// @brief Test callback that stores callout name and passed parameters. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int pkt6_send_callout(CalloutHandle& callout_handle) { callback_name_ = string("pkt6_send"); callout_handle.getArgument("response6", callback_resp_pkt6_); callout_handle.getArgument("query6", callback_qry_pkt6_); callback_argument_names_ = callout_handle.getArgumentNames(); if (callback_qry_pkt6_) { callback_qry_options_copy_ = callback_qry_pkt6_->isCopyRetrievedOptions(); } if (callback_resp_pkt6_) { callback_resp_options_copy_ = callback_resp_pkt6_->isCopyRetrievedOptions(); } return (0); } /// @brief Test callback that changes server-id. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int pkt6_send_change_serverid_callout(CalloutHandle& callout_handle) { Pkt6Ptr pkt; callout_handle.getArgument("response6", pkt); // Get rid of the old server-id pkt->delOption(D6O_SERVERID); // Add a new option pkt->addOption(createOption(D6O_SERVERID)); // Carry on as usual return pkt6_send_callout(callout_handle); } /// @brief Test callback that deletes server-id. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int pkt6_send_delete_serverid_callout(CalloutHandle& callout_handle) { Pkt6Ptr pkt; callout_handle.getArgument("response6", pkt); // Get rid of the old client-id pkt->delOption(D6O_SERVERID); // Carry on as usual return pkt6_send_callout(callout_handle); } /// @brief Test callback that sets skip flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int pkt6_send_skip_callout(CalloutHandle& callout_handle) { Pkt6Ptr pkt; callout_handle.getArgument("response6", pkt); callout_handle.setStatus(CalloutHandle::NEXT_STEP_SKIP); // carry on as usual return pkt6_send_callout(callout_handle); } /// @brief Test callback that sets drop flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int pkt6_send_drop_callout(CalloutHandle& callout_handle) { Pkt6Ptr pkt; callout_handle.getArgument("response6", pkt); callout_handle.setStatus(CalloutHandle::NEXT_STEP_DROP); // carry on as usual return pkt6_send_callout(callout_handle); } /// @brief Test callback that stores callout name and passed parameters. /// /// @param callout_handle handle passed by the hooks framework. /// @return always 0 static int buffer6_send_callout(CalloutHandle& callout_handle) { callback_name_ = string("buffer6_send"); callout_handle.getArgument("response6", callback_resp_pkt6_); callback_argument_names_ = callout_handle.getArgumentNames(); if (callback_resp_pkt6_) { callback_resp_options_copy_ = callback_resp_pkt6_->isCopyRetrievedOptions(); } return (0); } /// @brief Test callback that sets skip flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int buffer6_send_skip_callout(CalloutHandle& callout_handle) { callout_handle.setStatus(CalloutHandle::NEXT_STEP_SKIP); // Carry on as usual return buffer6_send_callout(callout_handle); } /// @brief Test callback that sets drop flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int buffer6_send_drop_callout(CalloutHandle& callout_handle) { callout_handle.setStatus(CalloutHandle::NEXT_STEP_DROP); // carry on as usual return buffer6_send_callout(callout_handle); } /// @brief Test callback that stores callout name and passed parameters. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int subnet6_select_callout(CalloutHandle& callout_handle) { callback_name_ = string("subnet6_select"); callout_handle.getArgument("query6", callback_qry_pkt6_); callout_handle.getArgument("subnet6", callback_subnet6_); callout_handle.getArgument("subnet6collection", callback_subnet6collection_); callback_argument_names_ = callout_handle.getArgumentNames(); if (callback_qry_pkt6_) { callback_qry_options_copy_ = callback_qry_pkt6_->isCopyRetrievedOptions(); } return (0); } /// @brief Test callback that picks the other subnet if possible. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int subnet6_select_different_subnet_callout(CalloutHandle& callout_handle) { // Call the basic callout to record all passed values subnet6_select_callout(callout_handle); const Subnet6Collection* subnets; Subnet6Ptr subnet; callout_handle.getArgument("subnet6", subnet); callout_handle.getArgument("subnet6collection", subnets); // Let's change to a different subnet if (subnets->size() > 1) { subnet = *std::next(subnets->begin()); // Let's pick the other subnet callout_handle.setArgument("subnet6", subnet); } return (0); } /// @brief Test callback that sets skip flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int subnet6_select_skip_callout(CalloutHandle& callout_handle) { callout_handle.setStatus(CalloutHandle::NEXT_STEP_SKIP); // Carry on as usual return subnet6_select_callout(callout_handle); } /// @brief Test callback that sets drop flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int subnet6_select_drop_callout(CalloutHandle& callout_handle) { callout_handle.setStatus(CalloutHandle::NEXT_STEP_DROP); // Carry on as usual return subnet6_select_callout(callout_handle); } /// @brief Test callback that stores callout name and passed parameters. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_renew_callout(CalloutHandle& callout_handle) { callback_name_ = string("lease6_renew"); callout_handle.getArgument("query6", callback_qry_pkt6_); callout_handle.getArgument("lease6", callback_lease6_); callout_handle.getArgument("ia_na", callback_ia_na_); callback_argument_names_ = callout_handle.getArgumentNames(); if (callback_qry_pkt6_) { callback_qry_options_copy_ = callback_qry_pkt6_->isCopyRetrievedOptions(); } return (0); } /// The following values are used by the callout to override /// renewed lease parameters static const uint32_t override_iaid_; static const uint32_t override_preferred_; static const uint32_t override_valid_; /// @brief Test callback that overrides received lease. /// /// It updates T1, T2, preferred and valid lifetimes /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_renew_update_callout(CalloutHandle& callout_handle) { callback_name_ = string("lease6_renew"); callout_handle.getArgument("query6", callback_qry_pkt6_); callout_handle.getArgument("lease6", callback_lease6_); callout_handle.getArgument("ia_na", callback_ia_na_); // Should be an ASSERT but it is not allowed here EXPECT_TRUE(callback_lease6_); // Let's override some values in the lease callback_lease6_->iaid_ = override_iaid_; callback_lease6_->preferred_lft_ = override_preferred_; callback_lease6_->valid_lft_ = override_valid_; // Should be an ASSERT but it is not allowed here EXPECT_TRUE(callback_ia_na_); // Override the values to be sent to the client as well callback_ia_na_->setIAID(override_iaid_); callback_argument_names_ = callout_handle.getArgumentNames(); return (0); } /// @brief Test callback that sets the skip flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_renew_skip_callout(CalloutHandle& callout_handle) { callback_name_ = string("lease6_renew"); callout_handle.setStatus(CalloutHandle::NEXT_STEP_SKIP); return (0); } /// @brief Test callback that stores callout name and passed parameters. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_rebind_callout(CalloutHandle& callout_handle) { callback_name_ = string("lease6_rebind"); callout_handle.getArgument("query6", callback_qry_pkt6_); callout_handle.getArgument("lease6", callback_lease6_); callout_handle.getArgument("ia_na", callback_ia_na_); callback_argument_names_ = callout_handle.getArgumentNames(); if (callback_qry_pkt6_) { callback_qry_options_copy_ = callback_qry_pkt6_->isCopyRetrievedOptions(); } return (0); } /// @brief Test callback that overrides received lease. /// /// It updates T1, T2, preferred and valid lifetimes /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_rebind_update_callout(CalloutHandle& callout_handle) { callback_name_ = string("lease6_rebind"); callout_handle.getArgument("query6", callback_qry_pkt6_); callout_handle.getArgument("lease6", callback_lease6_); callout_handle.getArgument("ia_na", callback_ia_na_); // Should be an ASSERT but it is not allowed here EXPECT_TRUE(callback_lease6_); // Let's override some values in the lease callback_lease6_->iaid_ = override_iaid_; callback_lease6_->preferred_lft_ = override_preferred_; callback_lease6_->valid_lft_ = override_valid_; // Should be an ASSERT but it is not allowed here EXPECT_TRUE(callback_ia_na_); // Override the values to be sent to the client as well callback_ia_na_->setIAID(override_iaid_); callback_argument_names_ = callout_handle.getArgumentNames(); return (0); } /// @brief Test callback that sets the skip flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_rebind_skip_callout(CalloutHandle& callout_handle) { callout_handle.setStatus(CalloutHandle::NEXT_STEP_SKIP); return (lease6_rebind_callout(callout_handle)); } /// @brief Test callback that sets the drop flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_rebind_drop_callout(CalloutHandle& callout_handle) { callout_handle.setStatus(CalloutHandle::NEXT_STEP_DROP); return (lease6_rebind_callout(callout_handle)); } /// @brief Test callback that stores callout name and passed parameters. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_release_callout(CalloutHandle& callout_handle) { callback_name_ = string("lease6_release"); callout_handle.getArgument("query6", callback_qry_pkt6_); callout_handle.getArgument("lease6", callback_lease6_); callback_argument_names_ = callout_handle.getArgumentNames(); if (callback_qry_pkt6_) { callback_qry_options_copy_ = callback_qry_pkt6_->isCopyRetrievedOptions(); } return (0); } /// @brief Test callback that sets the skip flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_release_skip_callout(CalloutHandle& callout_handle) { callback_name_ = string("lease6_release"); callout_handle.setStatus(CalloutHandle::NEXT_STEP_SKIP); return (0); } /// @brief Test callback that sets the drop flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_release_drop_callout(CalloutHandle& callout_handle) { callback_name_ = string("lease6_release"); callout_handle.setStatus(CalloutHandle::NEXT_STEP_DROP); return (0); } /// @brief Test callback that stores callout name and passed parameters. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_decline_callout(CalloutHandle& callout_handle) { callback_name_ = string("lease6_decline"); callout_handle.getArgument("query6", callback_qry_pkt6_); callout_handle.getArgument("lease6", callback_lease6_); if (callback_qry_pkt6_) { callback_qry_options_copy_ = callback_qry_pkt6_->isCopyRetrievedOptions(); } return (0); } /// @brief Test callback that sets the skip flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_decline_skip_callout(CalloutHandle& callout_handle) { callout_handle.setStatus(CalloutHandle::NEXT_STEP_SKIP); return (lease6_decline_callout(callout_handle)); } /// @brief Test callback that sets the drop flag. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int lease6_decline_drop_callout(CalloutHandle& callout_handle) { callout_handle.setStatus(CalloutHandle::NEXT_STEP_DROP); return (lease6_decline_callout(callout_handle)); } /// @brief Test callback that stores callout name and passed parameters. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int leases6_committed_callout(CalloutHandle& callout_handle) { callback_name_ = string("leases6_committed"); callout_handle.getArgument("query6", callback_qry_pkt6_); callout_handle.getArgument("leases6", callback_new_leases6_); callout_handle.getArgument("deleted_leases6", callback_deleted_leases6_); callback_argument_names_ = callout_handle.getArgumentNames(); sort(callback_argument_names_.begin(), callback_argument_names_.end()); if (callback_qry_pkt6_) { callback_qry_options_copy_ = callback_qry_pkt6_->isCopyRetrievedOptions(); } return (0); } /// @brief Test callback which asks the server to unpark the packet. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static void leases6_committed_unpark(ParkingLotHandlePtr parking_lot, Pkt6Ptr query) { parking_lot->unpark(query); } /// @brief Test callback which asks the server to park the packet. /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int leases6_committed_park_callout(CalloutHandle& callout_handle) { callback_name_ = string("leases6_committed"); callout_handle.getArgument("query6", callback_qry_pkt6_); io_service_->post(std::bind(&HooksDhcpv6SrvTest::leases6_committed_unpark, callout_handle.getParkingLotHandlePtr(), callback_qry_pkt6_)); callout_handle.getParkingLotHandlePtr()->reference(callback_qry_pkt6_); callout_handle.setStatus(CalloutHandle::NEXT_STEP_PARK); callout_handle.getArgument("leases6", callback_new_leases6_); callout_handle.getArgument("deleted_leases6", callback_deleted_leases6_); callback_argument_names_ = callout_handle.getArgumentNames(); sort(callback_argument_names_.begin(), callback_argument_names_.end()); if (callback_qry_pkt6_) { callback_qry_options_copy_ = callback_qry_pkt6_->isCopyRetrievedOptions(); } return (0); } /// @brief Test host6_identifier callback by setting identifier to "foo". /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int host6_identifier_foo_callout(CalloutHandle& handle) { callback_name_ = string("host6_identifier"); // Make sure the query6 parameter is passed. handle.getArgument("query6", callback_qry_pkt6_); // Make sure id_type parameter is passed. Host::IdentifierType type = Host::IDENT_FLEX; handle.getArgument("id_type", type); // Make sure id_value parameter is passed. std::vector id_test; handle.getArgument("id_value", id_test); // Ok, now set the identifier. std::vector id = { 0x66, 0x6f, 0x6f }; // foo handle.setArgument("id_value", id); handle.setArgument("id_type", Host::IDENT_FLEX); return (0); } /// @brief Test host6_identifier callout by setting identifier to hwaddr. /// /// This callout always returns fixed HWADDR: 00:01:02:03:04:05 /// /// @param callout_handle handle passed by the hooks framework /// @return always 0 static int host6_identifier_hwaddr_callout(CalloutHandle& handle) { callback_name_ = string("host6_identifier"); // Make sure the query6 parameter is passed. handle.getArgument("query6", callback_qry_pkt6_); // Make sure id_type parameter is passed. Host::IdentifierType type = Host::IDENT_FLEX; handle.getArgument("id_type", type); // Make sure id_value parameter is passed. std::vector id_test; handle.getArgument("id_value", id_test); // Ok, now set the identifier to 00:01:02:03:04:05 std::vector id = { 0x00, 0x01, 0x02, 0x03, 0x04, 0x05 }; handle.setArgument("id_value", id); handle.setArgument("id_type", Host::IDENT_HWADDR); return (0); } /// Resets buffers used to store data received by callouts void resetCalloutBuffers() { callback_name_ = string(""); callback_qry_pkt6_.reset(); callback_resp_pkt6_.reset(); callback_subnet6_.reset(); callback_lease6_.reset(); callback_new_leases6_.reset(); callback_deleted_leases6_.reset(); callback_ia_na_.reset(); callback_subnet6collection_ = NULL; callback_argument_names_.clear(); callback_qry_options_copy_ = false; callback_resp_options_copy_ = false; } /// @brief Fetches the current value of the given statistic. /// @param name name of the desired statistic. /// @return Current value of the statistic, or zero if the /// statistic is not found. uint64_t getStatistic(const std::string& name) { ObservationPtr stat = StatsMgr::instance().getObservation(name); if (!stat) { return (0); } return (stat->getInteger().first); } /// Pointer to Dhcpv6Srv that is used in tests boost::shared_ptr srv_; /// Pointer to the IO service used in the tests. static IOServicePtr io_service_; // The following fields are used in testing pkt6_receive_callout /// String name of the received callout static string callback_name_; /// Client's query Pkt6 structure returned in the callout static Pkt6Ptr callback_qry_pkt6_; /// Server's response Pkt6 structure returned in the callout static Pkt6Ptr callback_resp_pkt6_; /// Pointer to lease6 structure returned in the leases6_committed callout static Lease6Ptr callback_lease6_; /// Pointer to lease6 structure returned in the leases6_committed callout static Lease6CollectionPtr callback_new_leases6_; /// Pointer to lease6 structure returned in the leases6_committed callout static Lease6CollectionPtr callback_deleted_leases6_; /// Pointer to IA_NA option being renewed or rebound static boost::shared_ptr callback_ia_na_; /// Pointer to a subnet received by callout static Subnet6Ptr callback_subnet6_; /// A list of all available subnets (received by callout) static const Subnet6Collection* callback_subnet6collection_; /// A list of all received arguments static vector callback_argument_names_; /// Flag indicating if copying retrieved options was enabled for /// a query during callout execution. static bool callback_qry_options_copy_; /// Flag indicating if copying retrieved options was enabled for /// a response during callout execution. static bool callback_resp_options_copy_; }; // The following parameters are used by callouts to override // renewed lease parameters const uint32_t HooksDhcpv6SrvTest::override_iaid_ = 1000; const uint32_t HooksDhcpv6SrvTest::override_preferred_ = 1003; const uint32_t HooksDhcpv6SrvTest::override_valid_ = 1004; // The following fields are used in testing pkt6_receive_callout. // See fields description in the class for details IOServicePtr HooksDhcpv6SrvTest::io_service_; string HooksDhcpv6SrvTest::callback_name_; Pkt6Ptr HooksDhcpv6SrvTest::callback_qry_pkt6_; Pkt6Ptr HooksDhcpv6SrvTest::callback_resp_pkt6_; Subnet6Ptr HooksDhcpv6SrvTest::callback_subnet6_; const Subnet6Collection* HooksDhcpv6SrvTest::callback_subnet6collection_; Lease6Ptr HooksDhcpv6SrvTest::callback_lease6_; Lease6CollectionPtr HooksDhcpv6SrvTest::callback_new_leases6_; Lease6CollectionPtr HooksDhcpv6SrvTest::callback_deleted_leases6_; boost::shared_ptr HooksDhcpv6SrvTest::callback_ia_na_; vector HooksDhcpv6SrvTest::callback_argument_names_; bool HooksDhcpv6SrvTest::callback_qry_options_copy_; bool HooksDhcpv6SrvTest::callback_resp_options_copy_; /// @brief Fixture class used to do basic library load/unload tests class LoadUnloadDhcpv6SrvTest : public Dhcpv6SrvTest { public: /// @brief Pointer to the tested server object boost::shared_ptr server_; LoadUnloadDhcpv6SrvTest() : Dhcpv6SrvTest() { reset(); MultiThreadingMgr::instance().setMode(false); } /// @brief Destructor ~LoadUnloadDhcpv6SrvTest() { server_.reset(); reset(); MultiThreadingMgr::instance().setMode(false); }; /// @brief Reset hooks data /// /// Resets the data for the hooks-related portion of the test by ensuring /// that no libraries are loaded and that any marker files are deleted. void reset() { // Unload any previously-loaded libraries. EXPECT_TRUE(HooksManager::unloadLibraries()); // Get rid of any marker files. static_cast(remove(LOAD_MARKER_FILE)); static_cast(remove(UNLOAD_MARKER_FILE)); static_cast(remove(SRV_CONFIG_MARKER_FILE)); CfgMgr::instance().clear(); } }; // Checks if callouts installed on buffer6_receive are indeed called and the // all necessary parameters are passed. // // Note that the test name does not follow test naming convention, // but the proper hook name is "buffer6_receive". TEST_F(HooksDhcpv6SrvTest, buffer6ReceiveSimple) { // Install buffer6_receive_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "buffer6_receive", buffer6_receive_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered buffer6_receive callback. srv_->run(); // Check that the callback called is indeed the one we installed EXPECT_EQ("buffer6_receive", callback_name_); // Check that pkt6 argument passing was successful and returned proper value EXPECT_TRUE(callback_qry_pkt6_.get() == sol.get()); // Check that all expected parameters are there vector expected_argument_names; expected_argument_names.push_back(string("query6")); EXPECT_TRUE(expected_argument_names == callback_argument_names_); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on buffer6_receive is able to change // the values and the parameters are indeed used by the server. TEST_F(HooksDhcpv6SrvTest, buffer6ReceiveValueChange) { // Install buffer6_receive_change_clientid_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "buffer6_receive", buffer6_receive_change_clientid_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered buffer6_receive callback. srv_->run(); // Check that the server did send a response ASSERT_EQ(1, srv_->fake_sent_.size()); // Make sure that we received a response Pkt6Ptr adv = srv_->fake_sent_.front(); ASSERT_TRUE(adv); // Get client-id... OptionPtr clientid = adv->getOption(D6O_CLIENTID); ASSERT_TRUE(clientid); // ... and check if it is the modified value EXPECT_EQ(0xff, clientid->getData()[0]); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on buffer6_receive is able to delete // existing options and that change impacts server processing (mandatory // client-id option is deleted, so the packet is expected to be dropped) TEST_F(HooksDhcpv6SrvTest, buffer6ReceiveDeleteClientId) { // Install buffer6_receive_delete_clientid_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "buffer6_receive", buffer6_receive_delete_clientid_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered buffer6_receive callback. srv_->run(); // Check that the server dropped the packet and did not send a response ASSERT_EQ(0, srv_->fake_sent_.size()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on buffer6_receive is able to set skip flag that // will cause the server to not process the packet (drop), even though it is valid. TEST_F(HooksDhcpv6SrvTest, buffer6ReceiveSkip) { // Install buffer6_receive_skip_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "buffer6_receive", buffer6_receive_skip_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered buffer6_receive callback. srv_->run(); // Check that the server dropped the packet and did not produce any response ASSERT_EQ(0, srv_->fake_sent_.size()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on buffer6_receive is able to set drop flag that // will cause the server to not process the packet (drop), even though it is valid. TEST_F(HooksDhcpv6SrvTest, buffer6ReceiveDrop) { // Install buffer6_receive_drop_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "buffer6_receive", buffer6_receive_drop_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered buffer6_receive callback. srv_->run(); // Check that the server dropped the packet and did not produce any response ASSERT_EQ(0, srv_->fake_sent_.size()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on pkt6_receive are indeed called and the // all necessary parameters are passed. // // Note that the test name does not follow test naming convention, // but the proper hook name is "pkt6_receive". TEST_F(HooksDhcpv6SrvTest, pkt6ReceiveSimple) { // Install pkt6_receive_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "pkt6_receive", pkt6_receive_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered pkt6_receive callback. srv_->run(); // Check that the callback called is indeed the one we installed EXPECT_EQ("pkt6_receive", callback_name_); // Check that pkt6 argument passing was successful and returned proper value EXPECT_TRUE(callback_qry_pkt6_.get() == sol.get()); // Check that all expected parameters are there vector expected_argument_names; expected_argument_names.push_back(string("query6")); EXPECT_TRUE(expected_argument_names == callback_argument_names_); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on pkt6_received is able to change // the values and the parameters are indeed used by the server. TEST_F(HooksDhcpv6SrvTest, pkt6ReceiveValueChange) { // Install pkt6_receive_change_clientid_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "pkt6_receive", pkt6_receive_change_clientid_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered pkt6_receive callback. srv_->run(); // Check that the server did send a response ASSERT_EQ(1, srv_->fake_sent_.size()); // Make sure that we received a response Pkt6Ptr adv = srv_->fake_sent_.front(); ASSERT_TRUE(adv); // Get client-id... OptionPtr clientid = adv->getOption(D6O_CLIENTID); // ... and check if it is the modified value OptionPtr expected = createOption(D6O_CLIENTID); EXPECT_TRUE(clientid->equals(expected)); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on pkt6_received is able to delete // existing options and that change impacts server processing (mandatory // client-id option is deleted, so the packet is expected to be dropped) TEST_F(HooksDhcpv6SrvTest, pkt6ReceiveDeleteClientId) { // Install pkt6_receive_delete_clientid_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "pkt6_receive", pkt6_receive_delete_clientid_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered pkt6_receive callback. srv_->run(); // Check that the server dropped the packet and did not send a response ASSERT_EQ(0, srv_->fake_sent_.size()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on pkt6_received is able to set skip flag that // will cause the server to not process the packet (drop), even though it is valid. TEST_F(HooksDhcpv6SrvTest, pkt6ReceiveSkip) { // Install pkt6_receive_skip_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "pkt6_receive", pkt6_receive_skip_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered pkt6_receive callback. srv_->run(); // Check that the server dropped the packet and did not produce any response ASSERT_EQ(0, srv_->fake_sent_.size()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on pkt6_received is able to set drop flag that // will cause the server to not process the packet (drop), even though it is valid. TEST_F(HooksDhcpv6SrvTest, pkt6ReceiveDrop) { // Install pkt6_receive_drop_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "pkt6_receive", pkt6_receive_drop_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered pkt6_receive callback. srv_->run(); // Check that the server dropped the packet and did not produce any response ASSERT_EQ(0, srv_->fake_sent_.size()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on pkt6_send are indeed called and the // all necessary parameters are passed. TEST_F(HooksDhcpv6SrvTest, pkt6SendSimple) { // Install pkt6_send_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "pkt6_send", pkt6_send_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered pkt6_send callback. srv_->run(); // Check that the callback called is indeed the one we installed EXPECT_EQ("pkt6_send", callback_name_); // Check that there is one packet sent ASSERT_EQ(1, srv_->fake_sent_.size()); Pkt6Ptr adv = srv_->fake_sent_.front(); // Check that pkt6 argument passing was successful and returned proper // values ASSERT_TRUE(callback_qry_pkt6_); EXPECT_TRUE(callback_qry_pkt6_.get() == sol.get()); ASSERT_TRUE(callback_resp_pkt6_); EXPECT_TRUE(callback_resp_pkt6_.get() == adv.get()); // Check that all expected parameters are there vector expected_argument_names; expected_argument_names.push_back(string("query6")); expected_argument_names.push_back(string("response6")); EXPECT_TRUE(expected_argument_names == callback_argument_names_); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); EXPECT_TRUE(callback_resp_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on pkt6_send is able to change // the values and the packet sent contains those changes TEST_F(HooksDhcpv6SrvTest, pkt6SendValueChange) { // Install pkt6_send_change_serverid_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "pkt6_send", pkt6_send_change_serverid_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered pkt6_send callback. srv_->run(); // Check that the server did send a response ASSERT_EQ(1, srv_->fake_sent_.size()); // Make sure that we received a response Pkt6Ptr adv = srv_->fake_sent_.front(); ASSERT_TRUE(adv); // Get client-id... OptionPtr clientid = adv->getOption(D6O_SERVERID); // ... and check if it is the modified value OptionPtr expected = createOption(D6O_SERVERID); EXPECT_TRUE(clientid->equals(expected)); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on pkt6_send is able to delete // existing options and that server applies those changes. In particular, // we are trying to send a packet without server-id. The packet should // be sent TEST_F(HooksDhcpv6SrvTest, pkt6SendDeleteServerId) { // Install pkt6_send_delete_serverid_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "pkt6_send", pkt6_send_delete_serverid_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered pkt6_send callback. srv_->run(); // Check that the server indeed sent a malformed ADVERTISE ASSERT_EQ(1, srv_->fake_sent_.size()); // Get that ADVERTISE Pkt6Ptr adv = srv_->fake_sent_.front(); ASSERT_TRUE(adv); // Make sure that it does not have server-id EXPECT_FALSE(adv->getOption(D6O_SERVERID)); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on pkt6_skip is able to set skip flag that // will cause the server to send an empty response. TEST_F(HooksDhcpv6SrvTest, pkt6SendSkip) { // Install pkt6_send_skip_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "pkt6_send", pkt6_send_skip_callout)); // Let's create a simple REQUEST Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered pkt6_send callback. srv_->run(); // Check that the server sent the packet ASSERT_EQ(1, srv_->fake_sent_.size()); // Get the first packet and check that it has zero length (i.e. the server // did not do packing on its own) Pkt6Ptr sent = srv_->fake_sent_.front(); // The actual size of sent packet should be 0 EXPECT_EQ(0, sent->getBuffer().getLength()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on pkt6_drop is able to set drop flag that // will cause the server to not process the packet (drop), even though it is valid. TEST_F(HooksDhcpv6SrvTest, pkt6SendDrop) { // Install pkt6_send_drop_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "pkt6_send", pkt6_send_drop_callout)); // Let's create a simple REQUEST Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered pkt6_send callback. srv_->run(); // Check that the server does not send the packet EXPECT_EQ(0, srv_->fake_sent_.size()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on buffer6_send are indeed called and the // all necessary parameters are passed. TEST_F(HooksDhcpv6SrvTest, buffer6SendSimple) { // Install buffer6_send_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "buffer6_send", buffer6_send_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered buffer6_send callback. srv_->run(); // Check that the callback called is indeed the one we installed EXPECT_EQ("buffer6_send", callback_name_); // Check that there is one packet sent ASSERT_EQ(1, srv_->fake_sent_.size()); Pkt6Ptr adv = srv_->fake_sent_.front(); // Check that pkt6 argument passing was successful and returned proper value EXPECT_TRUE(callback_resp_pkt6_.get() == adv.get()); // Check that all expected parameters are there vector expected_argument_names; expected_argument_names.push_back(string("response6")); EXPECT_TRUE(expected_argument_names == callback_argument_names_); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_resp_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on buffer6_send can set skip flag and that flag // causes the packet to not be sent TEST_F(HooksDhcpv6SrvTest, buffer6SendSkip) { // Install buffer6_send_skip_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "buffer6_send", buffer6_send_skip_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered buffer6_send callback. srv_->run(); // Check that the callback called is indeed the one we installed EXPECT_EQ("buffer6_send", callback_name_); // Check that there is no packet sent. ASSERT_EQ(0, srv_->fake_sent_.size()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callouts installed on buffer6_send can set drop flag and that flag // causes the packet to not be sent TEST_F(HooksDhcpv6SrvTest, buffer6SendDrop) { // Install buffer6_send_drop_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "buffer6_send", buffer6_send_drop_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered buffer6_send callback. srv_->run(); // Check that the callback called is indeed the one we installed EXPECT_EQ("buffer6_send", callback_name_); // Check that there is no packet sent EXPECT_EQ(0, srv_->fake_sent_.size()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // This test checks if subnet6_select callout is triggered and reports // valid parameters TEST_F(HooksDhcpv6SrvTest, subnet6SelectSimple) { // Configure 2 subnets, both directly reachable over local interface // (let's not complicate the matter with relays) string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"" + valid_iface_ + "\" " " }, {" " \"pools\": [ { \"pool\": \"2001:db8:2::/64\" } ]," " \"subnet\": \"2001:db8:2::/48\" " " } ]," "\"valid-lifetime\": 4000 }"; ConstElementPtr json; EXPECT_NO_THROW(json = parseDHCP6(config)); ConstElementPtr status; // Configure the server and make sure the config is accepted EXPECT_NO_THROW(status = configureDhcp6Server(*srv_, json)); ASSERT_TRUE(status); comment_ = isc::config::parseAnswer(rcode_, status); ASSERT_EQ(0, rcode_); // Commit the config CfgMgr::instance().commit(); // Install subnet6_select_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "subnet6_select", subnet6_select_callout)); // Prepare solicit packet. Server should select first subnet for it Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234)); sol->setRemoteAddr(IOAddress("fe80::abcd")); sol->setIface(valid_iface_); sol->setIndex(valid_ifindex_); sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000)); OptionPtr clientid = generateClientId(); sol->addOption(clientid); // Pass it to the server and get an advertise AllocEngine::ClientContext6 ctx; bool drop = !srv_->earlyGHRLookup(sol, ctx); ASSERT_FALSE(drop); srv_->initContext(sol, ctx, drop); ASSERT_FALSE(drop); Pkt6Ptr adv = srv_->processSolicit(ctx); // Check if we get response at all ASSERT_TRUE(adv); // Check that the callback called is indeed the one we installed EXPECT_EQ("subnet6_select", callback_name_); // Check that pkt6 argument passing was successful and returned proper value EXPECT_TRUE(callback_qry_pkt6_.get() == sol.get()); const Subnet6Collection* exp_subnets = CfgMgr::instance().getCurrentCfg()->getCfgSubnets6()->getAll(); // The server is supposed to pick the first subnet, because of matching // interface. Check that the value is reported properly. ASSERT_TRUE(callback_subnet6_); EXPECT_EQ(callback_subnet6_.get(), exp_subnets->begin()->get()); // Server is supposed to report two subnets ASSERT_EQ(exp_subnets->size(), callback_subnet6collection_->size()); ASSERT_GE(exp_subnets->size(), 2); // Compare that the available subnets are reported as expected EXPECT_TRUE((*exp_subnets->begin())->get() == (*callback_subnet6collection_->begin())->get()); EXPECT_TRUE((*std::next(exp_subnets->begin()))->get() == (*std::next(callback_subnet6collection_->begin()))->get()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // This test checks if callout installed on subnet6_select hook point can pick // a different subnet. TEST_F(HooksDhcpv6SrvTest, subnet6SelectChange) { // Configure 2 subnets, both directly reachable over local interface // (let's not complicate the matter with relays) string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"" + valid_iface_ + "\" " " }, {" " \"pools\": [ { \"pool\": \"2001:db8:2::/64\" } ]," " \"subnet\": \"2001:db8:2::/48\" " " } ]," "\"valid-lifetime\": 4000 }"; ConstElementPtr json; EXPECT_NO_THROW(json = parseDHCP6(config)); ConstElementPtr status; // Configure the server and make sure the config is accepted EXPECT_NO_THROW(status = configureDhcp6Server(*srv_, json)); ASSERT_TRUE(status); comment_ = isc::config::parseAnswer(rcode_, status); ASSERT_EQ(0, rcode_); CfgMgr::instance().commit(); // Install subnet6_select_different_subnet_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "subnet6_select", subnet6_select_different_subnet_callout)); // Prepare solicit packet. Server should select first subnet for it Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234)); sol->setRemoteAddr(IOAddress("fe80::abcd")); sol->setIface(valid_iface_); sol->setIndex(valid_ifindex_); sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000)); OptionPtr clientid = generateClientId(); sol->addOption(clientid); // Pass it to the server and get an advertise AllocEngine::ClientContext6 ctx; bool drop = !srv_->earlyGHRLookup(sol, ctx); ASSERT_FALSE(drop); srv_->initContext(sol, ctx, drop); ASSERT_FALSE(drop); Pkt6Ptr adv = srv_->processSolicit(ctx); // Check if we get response at all ASSERT_TRUE(adv); // The response should have an address from second pool, so let's check it OptionPtr tmp = adv->getOption(D6O_IA_NA); ASSERT_TRUE(tmp); boost::shared_ptr ia = boost::dynamic_pointer_cast(tmp); ASSERT_TRUE(ia); tmp = ia->getOption(D6O_IAADDR); ASSERT_TRUE(tmp); boost::shared_ptr addr_opt = boost::dynamic_pointer_cast(tmp); ASSERT_TRUE(addr_opt); // Get all subnets and use second subnet for verification const Subnet6Collection* subnets = CfgMgr::instance().getCurrentCfg()->getCfgSubnets6()->getAll(); ASSERT_EQ(2, subnets->size()); // Advertised address must belong to the second pool (in subnet's range, // in dynamic pool) auto subnet = subnets->begin(); ++subnet; EXPECT_TRUE((*subnet)->inRange(addr_opt->getAddress())); EXPECT_TRUE((*subnet)->inPool(Lease::TYPE_NA, addr_opt->getAddress())); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks that subnet6_select is able to drop the packet. TEST_F(HooksDhcpv6SrvTest, subnet6SelectDrop) { // Install subnet6_select_drop_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "subnet6_select", subnet6_select_drop_callout)); // Let's create a simple SOLICIT Pkt6Ptr sol = Pkt6Ptr(PktCaptures::captureSimpleSolicit()); // Simulate that we have received that traffic srv_->fakeReceive(sol); // Server will now process to run its normal loop, but instead of calling // IfaceMgr::receive6(), it will read all packets from the list set by // fakeReceive() // In particular, it should call registered subnet6_select callback. srv_->run(); // Check that the server dropped the packet and did not produce any response ASSERT_EQ(0, srv_->fake_sent_.size()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // This test verifies that the leases6_committed hook point is not triggered // for the SOLICIT. TEST_F(HooksDhcpv6SrvTest, leases6CommittedSolicit) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); ASSERT_NO_THROW(configure(config, *client.getServer())); // Install leases6_committed_callout ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSolicit()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Make sure that the callout wasn't called. EXPECT_TRUE(callback_name_.empty()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the leases6_committed hook point is not triggered // for the CONFIRM. TEST_F(HooksDhcpv6SrvTest, leases6CommittedConfirm) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestAddress(0xabca, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(configure(config, *client.getServer())); // Get a lease for the client. ASSERT_NO_THROW(client.doSARR()); // Install leases6_committed_callout ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doConfirm()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Make sure that the callout wasn't called. EXPECT_TRUE(callback_name_.empty()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the leases6_committed hook point is not triggered // for the INFREQUEST. TEST_F(HooksDhcpv6SrvTest, leases6CommittedInfRequest) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.useRelay(); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doInfRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Make sure that the callout wasn't called. EXPECT_TRUE(callback_name_.empty()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the callout installed on the leases6_committed hook // point is executed as a result of SOLICIT message with Rapid Commit option, // sent to allocate new lease. TEST_F(HooksDhcpv6SrvTest, leases6CommittedRapidCommit) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"rapid-commit\": true, " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestAddress(0xabca, IOAddress("2001:db8:1::28")); client.useRapidCommit(true); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSolicit()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that it is possible to park a SOLICIT packet including // Rapid Commit option as a result of the leases6_committed callouts. The // prefix delegation is requested with the Solicit packet. TEST_F(HooksDhcpv6SrvTest, leases6CommittedParkRapidCommitPrefixes) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pd-pools\": [ {" " \"prefix\": \"2001:db8:1::\", " " \"prefix-len\": 56, " " \"delegated-len\": 64 } ], " " \"subnet\": \"2001:db8:1::/48\", " " \"rapid-commit\": true, " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; // Create first client and perform SARR. Dhcp6Client client1; client1.setInterface("eth1"); client1.requestPrefix(0xabca, 64, IOAddress("2001:db8:1:28::")); client1.useRapidCommit(true); ASSERT_NO_THROW(configure(config, *client1.getServer())); // This callout uses provided IO service object to post a function // that unparks the packet. The packet is parked and can be unparked // by simply calling IOService::poll. ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_park_callout)); ASSERT_NO_THROW(client1.doSolicit()); // We should be offered an address but the REPLY should not arrive // at this point, because the packet is parked. ASSERT_FALSE(client1.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be passed to the callout. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:28::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client1.getContext().query_); // Reset all indicators because we'll be now creating a second client. resetCalloutBuffers(); // Create the second client to test that it may communicate with the // server while the previous packet is parked. Dhcp6Client client2(client1.getServer()); client2.setInterface("eth1"); client2.requestPrefix(0xabca, 64, IOAddress("2001:db8:1:29::")); client2.useRapidCommit(true); ASSERT_NO_THROW(client2.doSolicit()); // The ADVERTISE should have been returned but not REPLAY, as this // packet got parked too. ASSERT_FALSE(client2.getContext().response_); // Check that the callback called is indeed the one we installed. EXPECT_EQ("leases6_committed", callback_name_); // There should be now two actions scheduled on our IO service // by the invoked callouts. They unpark both REPLY messages. ASSERT_NO_THROW(io_service_->poll()); // Receive and check the first response. ASSERT_NO_THROW(client1.receiveResponse()); Pkt6Ptr rsp = client1.getContext().response_; ASSERT_TRUE(rsp); EXPECT_EQ(DHCPV6_REPLY, rsp->getType()); EXPECT_TRUE(client1.hasLeaseForPrefix(IOAddress("2001:db8:1:28::"), 64)); // Receive and check the second response. ASSERT_NO_THROW(client2.receiveResponse()); rsp = client2.getContext().response_; ASSERT_TRUE(rsp); EXPECT_EQ(DHCPV6_REPLY, rsp->getType()); EXPECT_TRUE(client2.hasLeaseForPrefix(IOAddress("2001:db8:1:29::"), 64)); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client2.getContext().query_); } // This test verifies that the callout installed on the leases6_committed hook // point is executed as a result of REQUEST message sent to allocate new // lease or renew an existing lease. TEST_F(HooksDhcpv6SrvTest, leases6CommittedRequest) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestAddress(0xabca, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Request the lease and make sure that the callout has been executed. ASSERT_NO_THROW(client.doRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Requested lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Let's try to request again but force the client to request a different // address with a different IAID. client.requestAddress(0x2233, IOAddress("2001:db8:1::29")); ASSERT_NO_THROW(client.doRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // New lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(2, callback_new_leases6_->size()); lease = callback_new_leases6_->at(1); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::29", lease->addr_.toText()); // The old lease is kept. ASSERT_TRUE(callback_deleted_leases6_); ASSERT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // The requested address is just a hint. client.requestAddress(0x5577, IOAddress("4000::2")); ASSERT_NO_THROW(client.doRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); lease = callback_new_leases6_->at(2); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::", lease->addr_.toText()); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Request a prefix: this should lead to an error as no prefix pool // is configured. client.requestPrefix(0x1122, 64, IOAddress("2001:db8:1000::")); ASSERT_NO_THROW(client.doRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check the error. EXPECT_EQ(STATUS_NoPrefixAvail, client.getStatusCode(0x1122)); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the callout installed on the leases6_committed hook // point is executed as a result of REQUEST message sent to allocate new // lease or renew an existing lease. Prefix variant. TEST_F(HooksDhcpv6SrvTest, leases6CommittedRequestPrefix) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pd-pools\": [ {" " \"prefix\": \"2001:db8:1::\", " " \"prefix-len\": 56, " " \"delegated-len\": 64 } ], " " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestPrefix(0xabca, 64, IOAddress("2001:db8:1:28::")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:28::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Request the lease and make sure that the callout has been executed. ASSERT_NO_THROW(client.doRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Requested lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:28::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Let's try to request again but force the client to request a different // prefix with a different IAID. client.requestPrefix(0x2233, 64, IOAddress("2001:db8:1:29::")); ASSERT_NO_THROW(client.doRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // New lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(2, callback_new_leases6_->size()); lease = callback_new_leases6_->at(1); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:29::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // The old lease is kept. ASSERT_TRUE(callback_deleted_leases6_); ASSERT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // The requested prefix is just a hint. client.requestPrefix(0x5577, 64, IOAddress("4000::1")); ASSERT_NO_THROW(client.doRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); lease = callback_new_leases6_->at(2); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Request an address: this should lead to an error as no address pool // is configured. client.requestAddress(0x1122, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(client.doRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check the error. EXPECT_EQ(STATUS_NoAddrsAvail, client.getStatusCode(0x1122)); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the callout installed on the leases6_committed hook // point is executed as a result of RENEW message sent to allocate new // lease or renew an existing lease. TEST_F(HooksDhcpv6SrvTest, leases6CommittedRenew) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestAddress(0xabca, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Renew the lease and make sure that the callout has been executed. ASSERT_NO_THROW(client.doRenew()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Renewed lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); resetCalloutBuffers(); // Let's try to renew again but force the client to renew a different // address with a different IAID. client.requestAddress(0x2233, IOAddress("2001:db8:1::29")); ASSERT_NO_THROW(client.doRenew()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // New lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(2, callback_new_leases6_->size()); lease = callback_new_leases6_->at(1); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::29", lease->addr_.toText()); // The old lease is kept. ASSERT_TRUE(callback_deleted_leases6_); ASSERT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // The renewed address is just a hint. client.requestAddress(0x5577, IOAddress("4000::2")); ASSERT_NO_THROW(client.doRenew()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); lease = callback_new_leases6_->at(2); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::", lease->addr_.toText()); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Renew a prefix: this should lead to an error as no prefix pool // is configured. client.requestPrefix(0x1122, 64, IOAddress("2001:db8:1000::")); ASSERT_NO_THROW(client.doRenew()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check the error. EXPECT_EQ(STATUS_NoPrefixAvail, client.getStatusCode(0x1122)); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the callout installed on the leases6_committed hook // point is executed as a result of RENEW message sent to allocate new // lease or renew an existing lease. Prefix variant. TEST_F(HooksDhcpv6SrvTest, leases6CommittedRenewPrefix) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pd-pools\": [ {" " \"prefix\": \"2001:db8:1::\", " " \"prefix-len\": 56, " " \"delegated-len\": 64 } ], " " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestPrefix(0xabca, 64, IOAddress("2001:db8:1:28::")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:28::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); resetCalloutBuffers(); // Renew the lease and make sure that the callout has been executed. ASSERT_NO_THROW(client.doRenew()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Renewed lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:28::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Let's try to renew again but force the client to renew a different // prefix with a different IAID. client.requestPrefix(0x2233, 64, IOAddress("2001:db8:1:29::")); ASSERT_NO_THROW(client.doRenew()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // New lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(2, callback_new_leases6_->size()); lease = callback_new_leases6_->at(1); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:29::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // The old lease is kept. ASSERT_TRUE(callback_deleted_leases6_); ASSERT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // The renewed prefix is just a hint. client.requestPrefix(0x5577, 64, IOAddress("4000::1")); ASSERT_NO_THROW(client.doRenew()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); lease = callback_new_leases6_->at(2); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Renew an address: this should lead to an error as no address pool // is configured. client.requestAddress(0x1122, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(client.doRenew()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check the error. EXPECT_EQ(STATUS_NoAddrsAvail, client.getStatusCode(0x1122)); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the callout installed on the leases6_committed hook // point is executed as a result of REBIND message sent to allocate new // lease or renew an existing lease. TEST_F(HooksDhcpv6SrvTest, leases6CommittedRebind) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestAddress(0xabca, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Rebind the lease and make sure that the callout has been executed. ASSERT_NO_THROW(client.doRebind()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Rebound lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Let's try to rebind again but force the client to rebind a different // address with a different IAID. client.requestAddress(0x2233, IOAddress("2001:db8:1::29")); ASSERT_NO_THROW(client.doRebind()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // New lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(2, callback_new_leases6_->size()); lease = callback_new_leases6_->at(1); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::29", lease->addr_.toText()); // The old lease is kept. ASSERT_TRUE(callback_deleted_leases6_); ASSERT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // The rebound address is just a hint. client.requestAddress(0x5577, IOAddress("4000::2")); ASSERT_NO_THROW(client.doRebind()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); lease = callback_new_leases6_->at(2); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::", lease->addr_.toText()); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Rebind a prefix: this should lead to an error as no prefix pool // is configured. client.requestPrefix(0x1122, 64, IOAddress("2001:db8:1000::")); ASSERT_NO_THROW(client.doRebind()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check the error. EXPECT_EQ(STATUS_NoPrefixAvail, client.getStatusCode(0x1122)); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the callout installed on the leases6_committed hook // point is executed as a result of REBIND message sent to allocate new // lease or renew an existing lease. Prefix variant. TEST_F(HooksDhcpv6SrvTest, leases6CommittedRebindPrefix) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pd-pools\": [ {" " \"prefix\": \"2001:db8:1::\", " " \"prefix-len\": 56, " " \"delegated-len\": 64 } ], " " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestPrefix(0xabca, 64, IOAddress("2001:db8:1:28::")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:28::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Rebind the lease and make sure that the callout has been executed. ASSERT_NO_THROW(client.doRebind()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Rebound lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:28::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Let's try to rebind again but force the client to rebind a different // prefix with a different IAID. client.requestPrefix(0x2233, 64, IOAddress("2001:db8:1:29::")); ASSERT_NO_THROW(client.doRebind()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // New lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(2, callback_new_leases6_->size()); lease = callback_new_leases6_->at(1); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:29::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // The old lease is kept. ASSERT_TRUE(callback_deleted_leases6_); ASSERT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // The rebound prefix is just a hint. client.requestPrefix(0x5577, 64, IOAddress("4000::1")); ASSERT_NO_THROW(client.doRebind()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); lease = callback_new_leases6_->at(2); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Rebind an address: this should lead to an error as no address pool // is configured. client.requestAddress(0x1122, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(client.doRebind()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check the error. EXPECT_EQ(STATUS_NoAddrsAvail, client.getStatusCode(0x1122)); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); ASSERT_TRUE(callback_new_leases6_); EXPECT_EQ(3, callback_new_leases6_->size()); ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the leases6_committed callout is executed // when DECLINE is processed. The declined lease is expected to be passed // in leases6 argument to the callout. TEST_F(HooksDhcpv6SrvTest, leases6CommittedDecline) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestAddress(0xabca, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); ASSERT_NO_THROW(client.doDecline()); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // No deleted leases. ASSERT_TRUE(callback_deleted_leases6_); ASSERT_TRUE(callback_deleted_leases6_->empty()); // Declined lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the leases6_committed callout is executed // when DECLINE is processed. Variant with 2 IA_NAs. TEST_F(HooksDhcpv6SrvTest, leases6CommittedDeclineTwoNAs) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestAddress(0xabca, IOAddress("2001:db8:1::28")); client.requestAddress(0x2233, IOAddress("2001:db8:1::29")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doDecline()); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // No deleted leases. ASSERT_TRUE(callback_deleted_leases6_); ASSERT_TRUE(callback_deleted_leases6_->empty()); // Declined lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(2, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); lease = callback_new_leases6_->at(1); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::29", lease->addr_.toText()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the leases6_committed callout is executed // with deleted leases as argument when RELEASE is processed. TEST_F(HooksDhcpv6SrvTest, leases6CommittedRelease) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestAddress(0xabca, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); ASSERT_NO_THROW(client.doRelease()); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // No new allocations. ASSERT_TRUE(callback_new_leases6_); ASSERT_TRUE(callback_new_leases6_->empty()); // Released lease should be returned. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_EQ(1, callback_deleted_leases6_->size()); Lease6Ptr lease = callback_deleted_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the leases6_committed callout is executed // with deleted leases as argument when RELEASE is processed. Prefix variant. TEST_F(HooksDhcpv6SrvTest, leases6CommittedReleasePrefix) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pd-pools\": [ {" " \"prefix\": \"2001:db8:1::\", " " \"prefix-len\": 56, " " \"delegated-len\": 64 } ], " " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestPrefix(0xabca, 64, IOAddress("2001:db8:1:28::")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doRelease()); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // No new allocations. ASSERT_TRUE(callback_new_leases6_); ASSERT_TRUE(callback_new_leases6_->empty()); // Released lease should be returned. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_EQ(1, callback_deleted_leases6_->size()); Lease6Ptr lease = callback_deleted_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:28::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the leases6_committed callout is executed // with deleted leases as argument when RELEASE is processed. // Variant with two addresses and two prefixes. TEST_F(HooksDhcpv6SrvTest, leases6CommittedReleaseMultiple) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"pd-pools\": [ {" " \"prefix\": \"2001:db8:2::\", " " \"prefix-len\": 56, " " \"delegated-len\": 64 } ], " " \"subnet\": \"2001:db8::/32\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); // In theory we can reuse the IAID but copyIAsFromLeases() copies // only one lease... client.requestAddress(0xabca, IOAddress("2001:db8:1::28")); client.requestPrefix(0xabcb, 64, IOAddress("2001:db8:2:28::")); client.requestAddress(0x2233, IOAddress("2001:db8:1::29")); client.requestPrefix(0x2234, 64, IOAddress("2001:db8:2:29::")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doRelease()); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // No new allocations. ASSERT_TRUE(callback_new_leases6_); ASSERT_TRUE(callback_new_leases6_->empty()); // Released lease should be returned. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_EQ(4, callback_deleted_leases6_->size()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the callout installed on the leases6_committed hook // point is executed as a result of REQUEST message sent to reuse an // existing lease. TEST_F(HooksDhcpv6SrvTest, leases6CommittedCache) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\", " " \"cache-threshold\": .25 " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestAddress(0xabca, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Request the lease and make sure that the callout has been executed. ASSERT_NO_THROW(client.doRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Requested lease should not be present, because it is reused. ASSERT_TRUE(callback_new_leases6_); EXPECT_TRUE(callback_new_leases6_->empty()); // Deleted lease must not be present, because it is renewed. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that the callout installed on the leases6_committed hook // point is executed as a result of REQUEST message sent to reuse an // existing lease. Prefix variant. TEST_F(HooksDhcpv6SrvTest, leases6CommittedCachePrefix) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pd-pools\": [ {" " \"prefix\": \"2001:db8:1::\", " " \"prefix-len\": 56, " " \"delegated-len\": 64 } ], " " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\", " " \"cache-threshold\": .25 " " } ]," "\"valid-lifetime\": 4000 }"; Dhcp6Client client; client.setInterface("eth1"); client.requestPrefix(0xabca, 64, IOAddress("2001:db8:1:28::")); ASSERT_NO_THROW(configure(config, *client.getServer())); ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_callout)); ASSERT_NO_THROW(client.doSARR()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be returned. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:28::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); resetCalloutBuffers(); // Request the lease and make sure that the callout has been executed. ASSERT_NO_THROW(client.doRequest()); // Make sure that we received a response ASSERT_TRUE(client.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Requested lease should not be present, because it is reused. ASSERT_TRUE(callback_new_leases6_); EXPECT_TRUE(callback_new_leases6_->empty()); // Deleted lease must not be present, because it is renewed. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // This test verifies that it is possible to park a packet as a result of // the leases6_committed callouts. TEST_F(HooksDhcpv6SrvTest, leases6CommittedParkRequests) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; // Create first client and perform SARR. Dhcp6Client client1; client1.setInterface("eth1"); client1.requestAddress(0xabca, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(configure(config, *client1.getServer())); // This callout uses provided IO service object to post a function // that unparks the packet. The packet is parked and can be unparked // by simply calling IOService::poll. ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_park_callout)); ASSERT_NO_THROW(client1.doSARR()); // We should be offered an address but the REPLY should not arrive // at this point, because the packet is parked. ASSERT_FALSE(client1.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be passed to the callout. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1::28", lease->addr_.toText()); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client1.getContext().query_); // Reset all indicators because we'll be now creating a second client. resetCalloutBuffers(); // Create the second client to test that it may communicate with the // server while the previous packet is parked. Dhcp6Client client2(client1.getServer()); client2.setInterface("eth1"); client2.requestAddress(0xabca, IOAddress("2001:db8:1::29")); ASSERT_NO_THROW(client2.doSARR()); // The ADVERTISE should have been returned but not REPLAY, as this // packet got parked too. ASSERT_FALSE(client2.getContext().response_); // Check that the callback called is indeed the one we installed. EXPECT_EQ("leases6_committed", callback_name_); // There should be now two actions scheduled on our IO service // by the invoked callouts. They unpark both REPLY messages. ASSERT_NO_THROW(io_service_->poll()); // Receive and check the first response. ASSERT_NO_THROW(client1.receiveResponse()); Pkt6Ptr rsp = client1.getContext().response_; ASSERT_TRUE(rsp); EXPECT_EQ(DHCPV6_REPLY, rsp->getType()); EXPECT_TRUE(client1.hasLeaseForAddress(IOAddress("2001:db8:1::28"))); // Receive and check the second response. ASSERT_NO_THROW(client2.receiveResponse()); rsp = client2.getContext().response_; ASSERT_TRUE(rsp); EXPECT_EQ(DHCPV6_REPLY, rsp->getType()); EXPECT_TRUE(client2.hasLeaseForAddress(IOAddress("2001:db8:1::29"))); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client2.getContext().query_); } // This test verifies that it is possible to park a packet as a result of // the leases6_committed callouts. Prefix variant. TEST_F(HooksDhcpv6SrvTest, leases6CommittedParkRequestsPrefixes) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pd-pools\": [ {" " \"prefix\": \"2001:db8:1::\", " " \"prefix-len\": 56, " " \"delegated-len\": 64 } ], " " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; // Create first client and perform SARR. Dhcp6Client client1; client1.setInterface("eth1"); client1.requestPrefix(0xabca, 64, IOAddress("2001:db8:1:28::")); ASSERT_NO_THROW(configure(config, *client1.getServer())); // This callout uses provided IO service object to post a function // that unparks the packet. The packet is parked and can be unparked // by simply calling IOService::poll. ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_park_callout)); ASSERT_NO_THROW(client1.doSARR()); // We should be offered an address but the REPLY should not arrive // at this point, because the packet is parked. ASSERT_FALSE(client1.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("deleted_leases6"); expected_argument_names.push_back("leases6"); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Newly allocated lease should be passed to the callout. ASSERT_TRUE(callback_new_leases6_); ASSERT_EQ(1, callback_new_leases6_->size()); Lease6Ptr lease = callback_new_leases6_->at(0); ASSERT_TRUE(lease); EXPECT_EQ("2001:db8:1:28::", lease->addr_.toText()); EXPECT_EQ(64, lease->prefixlen_); // Deleted lease must not be present, because it is a new allocation. ASSERT_TRUE(callback_deleted_leases6_); EXPECT_TRUE(callback_deleted_leases6_->empty()); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client1.getContext().query_); // Reset all indicators because we'll be now creating a second client. resetCalloutBuffers(); // Create the second client to test that it may communicate with the // server while the previous packet is parked. Dhcp6Client client2(client1.getServer()); client2.setInterface("eth1"); client2.requestPrefix(0xabca, 64, IOAddress("2001:db8:1:29::")); ASSERT_NO_THROW(client2.doSARR()); // The ADVERTISE should have been returned but not REPLAY, as this // packet got parked too. ASSERT_FALSE(client2.getContext().response_); // Check that the callback called is indeed the one we installed. EXPECT_EQ("leases6_committed", callback_name_); // There should be now two actions scheduled on our IO service // by the invoked callouts. They unpark both REPLY messages. ASSERT_NO_THROW(io_service_->poll()); // Receive and check the first response. ASSERT_NO_THROW(client1.receiveResponse()); Pkt6Ptr rsp = client1.getContext().response_; ASSERT_TRUE(rsp); EXPECT_EQ(DHCPV6_REPLY, rsp->getType()); EXPECT_TRUE(client1.hasLeaseForPrefix(IOAddress("2001:db8:1:28::"), 64)); // Receive and check the second response. ASSERT_NO_THROW(client2.receiveResponse()); rsp = client2.getContext().response_; ASSERT_TRUE(rsp); EXPECT_EQ(DHCPV6_REPLY, rsp->getType()); EXPECT_TRUE(client2.hasLeaseForPrefix(IOAddress("2001:db8:1:29::"), 64)); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client2.getContext().query_); } // This test verifies that incoming (positive) RENEW can be handled properly, // and the lease6_renew callouts are triggered. TEST_F(HooksDhcpv6SrvTest, lease6RenewSimple) { NakedDhcpv6Srv srv(0); // Install lease6_renew_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_renew", lease6_renew_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Check that preferred, valid and cltt really set and not using // previous (500, 501, etc.) values EXPECT_NE(l->preferred_lft_, subnet_->getPreferred()); EXPECT_NE(l->valid_lft_, subnet_->getValid()); EXPECT_NE(l->cltt_, time(NULL)); // Let's create a RENEW Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RENEW, 1234)); req->setRemoteAddr(IOAddress("fe80::abcd")); req->setIface("eth0"); req->setIndex(ETH0_INDEX); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr renewed_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(renewed_addr_opt); req->addOption(ia); req->addOption(clientid); // Server-id is mandatory in RENEW req->addOption(srv.getServerID()); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRenew(req); ASSERT_TRUE(reply); // Check that the callback called is indeed the one we installed EXPECT_EQ("lease6_renew", callback_name_); // Check that appropriate parameters are passed to the callouts EXPECT_TRUE(callback_qry_pkt6_); EXPECT_TRUE(callback_lease6_); EXPECT_TRUE(callback_ia_na_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("lease6"); expected_argument_names.push_back("ia_na"); sort(callback_argument_names_.begin(), callback_argument_names_.end()); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Check if we get response at all checkResponse(reply, DHCPV6_REPLY, 1234); OptionPtr tmp = reply->getOption(D6O_IA_NA); ASSERT_TRUE(tmp); // Check that IA_NA was returned and that there's an address included boost::shared_ptr addr_opt; ASSERT_NO_FATAL_FAILURE(addr_opt = checkIA_NA(reply, 234, subnet_->getT1(), subnet_->getT2())); ASSERT_TRUE(addr_opt); // Check that the lease is really in the database l = checkLease(duid_, reply->getOption(D6O_IA_NA), addr_opt); ASSERT_TRUE(l); // Check that the lease has been returned ASSERT_TRUE(callback_lease6_); // Check that the returned lease6 in callout is the same as the one in the // database EXPECT_TRUE(*callback_lease6_ == *l); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(req); } // This test verifies that incoming (positive) RENEW can be handled properly, // and the lease6_renew callouts are able to change the lease being updated. TEST_F(HooksDhcpv6SrvTest, lease6RenewLeaseUpdate) { NakedDhcpv6Srv srv(0); // Install lease6_renew_update_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_renew", lease6_renew_update_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Check that preferred, valid and cltt really set and not using // previous (500, 501, etc.) values EXPECT_NE(l->preferred_lft_, subnet_->getPreferred()); EXPECT_NE(l->valid_lft_, subnet_->getValid()); EXPECT_NE(l->cltt_, time(NULL)); // Let's create a RENEW Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RENEW, 1234)); req->setRemoteAddr(IOAddress("fe80::abcd")); req->setIface("eth0"); req->setIndex(ETH0_INDEX); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr renewed_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(renewed_addr_opt); req->addOption(ia); req->addOption(clientid); // Server-id is mandatory in RENEW req->addOption(srv.getServerID()); // Turn on tee time calculation so we can see the effect of overriding // the lease life time. subnet_->setCalculateTeeTimes(true); Triplet unspecified; subnet_->setT1(unspecified); subnet_->setT2(unspecified); subnet_->setT1Percent(0.60); subnet_->setT2Percent(0.80); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRenew(req); ASSERT_TRUE(reply); // Check if we get response at all checkResponse(reply, DHCPV6_REPLY, 1234); OptionPtr tmp = reply->getOption(D6O_IA_NA); ASSERT_TRUE(tmp); // Check that IA_NA was returned and that there's an address included boost::shared_ptr addr_opt; ASSERT_NO_FATAL_FAILURE(addr_opt = checkIA_NA(reply, 1000, 602, 802)); ASSERT_TRUE(addr_opt); // Check that the lease is really in the database l = checkLease(duid_, reply->getOption(D6O_IA_NA), addr_opt); ASSERT_TRUE(l); // Check that we chose the distinct override values ASSERT_NE(override_preferred_, subnet_->getPreferred()); EXPECT_NE(override_valid_, subnet_->getValid()); // Check that preferred, valid were overridden the callout EXPECT_EQ(override_preferred_, l->preferred_lft_); EXPECT_EQ(override_valid_, l->valid_lft_); // Checking for CLTT is a bit tricky if we want to avoid off by 1 errors int32_t cltt = static_cast(l->cltt_); int32_t expected = static_cast(time(NULL)); // Equality or difference by 1 between cltt and expected is ok. EXPECT_GE(1, abs(cltt - expected)); Lease6Ptr deleted_lease = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr_opt->getAddress()); EXPECT_TRUE(LeaseMgrFactory::instance().deleteLease(deleted_lease)); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(req); } // This test verifies that incoming (positive) RENEW can be handled properly, // and the lease6_renew callouts are able to set the skip flag that will // reject the renewal TEST_F(HooksDhcpv6SrvTest, lease6RenewSkip) { NakedDhcpv6Srv srv(0); // Install lease6_renew_skip_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_renew", lease6_renew_skip_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Check that preferred, valid and cltt are really set and not using // previous (500, 501, etc.) values EXPECT_NE(l->preferred_lft_, subnet_->getPreferred()); EXPECT_NE(l->valid_lft_, subnet_->getValid()); EXPECT_NE(l->cltt_, time(NULL)); // Let's create a RENEW Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RENEW, 1234)); req->setRemoteAddr(IOAddress("fe80::abcd")); req->setIface("eth0"); req->setIndex(ETH0_INDEX); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr renewed_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(renewed_addr_opt); req->addOption(ia); req->addOption(clientid); // Server-id is mandatory in RENEW req->addOption(srv.getServerID()); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRenew(req); ASSERT_TRUE(reply); // Check that our callback was called EXPECT_EQ("lease6_renew", callback_name_); l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); // Check that the old values are still there and they were not // updated by the renewal EXPECT_NE(l->preferred_lft_, subnet_->getPreferred()); EXPECT_NE(l->valid_lft_, subnet_->getValid()); EXPECT_NE(l->cltt_, time(NULL)); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(req); } // This test verifies that incoming (positive) REBIND can be handled properly, // and the lease6_rebind callouts are triggered. TEST_F(HooksDhcpv6SrvTest, lease6RebindSimple) { NakedDhcpv6Srv srv(0); // Install lease6_rebind_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_rebind", lease6_rebind_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during REBIND. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Check that preferred, valid and cltt really set and not using // previous (500, 501, etc.) values EXPECT_NE(l->preferred_lft_, subnet_->getPreferred()); EXPECT_NE(l->valid_lft_, subnet_->getValid()); EXPECT_NE(l->cltt_, time(NULL)); // Let's create a REBIND Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_REBIND, 1234)); req->setRemoteAddr(IOAddress("fe80::abcd")); req->setIface("eth0"); req->setIndex(ETH0_INDEX); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr rebound_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(rebound_addr_opt); req->addOption(ia); req->addOption(clientid); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRebind(req); ASSERT_TRUE(reply); // Check that the callback called is indeed the one we installed EXPECT_EQ("lease6_rebind", callback_name_); // Check that appropriate parameters are passed to the callouts EXPECT_TRUE(callback_qry_pkt6_); EXPECT_TRUE(callback_lease6_); EXPECT_TRUE(callback_ia_na_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("lease6"); expected_argument_names.push_back("ia_na"); sort(callback_argument_names_.begin(), callback_argument_names_.end()); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Check if we get response at all checkResponse(reply, DHCPV6_REPLY, 1234); OptionPtr tmp = reply->getOption(D6O_IA_NA); ASSERT_TRUE(tmp); // Check that IA_NA was returned and that there's an address included boost::shared_ptr addr_opt; ASSERT_NO_FATAL_FAILURE(addr_opt = checkIA_NA(reply, 234, subnet_->getT1(), subnet_->getT2())); ASSERT_TRUE(addr_opt); // Check that the lease is really in the database l = checkLease(duid_, reply->getOption(D6O_IA_NA), addr_opt); ASSERT_TRUE(l); // Check that the lease has been returned ASSERT_TRUE(callback_lease6_); // Check that the returned lease6 in callout is the same as the one in the // database EXPECT_TRUE(*callback_lease6_ == *l); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(req); } // This test verifies that incoming (positive) REBIND can be handled properly, // and the lease6_rebind callouts are able to change the lease being updated. TEST_F(HooksDhcpv6SrvTest, lease6RebindLeaseUpdate) { NakedDhcpv6Srv srv(0); // Install lease6_rebind_update_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_rebind", lease6_rebind_update_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during REBIND. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Check that T1, T2, preferred, valid and cltt really set and not using // previous (500, 501, etc.) values EXPECT_NE(l->preferred_lft_, subnet_->getPreferred()); EXPECT_NE(l->valid_lft_, subnet_->getValid()); EXPECT_NE(l->cltt_, time(NULL)); // Let's create a REBIND Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_REBIND, 1234)); req->setRemoteAddr(IOAddress("fe80::abcd")); req->setIface("eth0"); req->setIndex(ETH0_INDEX); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr rebound_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(rebound_addr_opt); req->addOption(ia); req->addOption(clientid); // Turn on tee time calculation so we can see the effect of overriding // the lease life time. subnet_->setCalculateTeeTimes(true); Triplet unspecified; subnet_->setT1(unspecified); subnet_->setT2(unspecified); subnet_->setT1Percent(0.60); subnet_->setT2Percent(0.80); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRebind(req); ASSERT_TRUE(reply); // Check if we get response at all checkResponse(reply, DHCPV6_REPLY, 1234); OptionPtr tmp = reply->getOption(D6O_IA_NA); ASSERT_TRUE(tmp); // Check that IA_NA was returned and that there's an address included // Note we also verify that T1 and T2 were calculated correctly. boost::shared_ptr addr_opt; ASSERT_NO_FATAL_FAILURE(addr_opt = checkIA_NA(reply, 1000, 602, 802)); ASSERT_TRUE(addr_opt); // Check that the lease is really in the database l = checkLease(duid_, reply->getOption(D6O_IA_NA), addr_opt); ASSERT_TRUE(l); // Check that we chose the distinct override values ASSERT_NE(override_preferred_, subnet_->getPreferred()); EXPECT_NE(override_valid_, subnet_->getValid()); // Check that preferred and valid were overridden in the callout EXPECT_EQ(override_preferred_, l->preferred_lft_); EXPECT_EQ(override_valid_, l->valid_lft_); // Checking for CLTT is a bit tricky if we want to avoid off by 1 errors int32_t cltt = static_cast(l->cltt_); int32_t expected = static_cast(time(NULL)); // Equality or difference by 1 between cltt and expected is ok. EXPECT_GE(1, abs(cltt - expected)); Lease6Ptr deleted_lease = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr_opt->getAddress()); EXPECT_TRUE(LeaseMgrFactory::instance().deleteLease(deleted_lease)); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(req); } // This test verifies that incoming (positive) REBIND can be handled properly, // and the lease6_rebind callouts are able to set the skip flag that will // reject the rebinding TEST_F(HooksDhcpv6SrvTest, lease6RebindSkip) { NakedDhcpv6Srv srv(0); // Install lease6_rebind_skip_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_rebind", lease6_rebind_skip_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during REBIND. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Check that preferred, valid and cltt really set and not using // previous (500, 501, etc.) values EXPECT_NE(l->preferred_lft_, subnet_->getPreferred()); EXPECT_NE(l->valid_lft_, subnet_->getValid()); EXPECT_NE(l->cltt_, time(NULL)); // Let's create a REBIND Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_REBIND, 1234)); req->setRemoteAddr(IOAddress("fe80::abcd")); req->setIface("eth0"); req->setIndex(ETH0_INDEX); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr rebound_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(rebound_addr_opt); req->addOption(ia); req->addOption(clientid); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRebind(req); ASSERT_TRUE(reply); // Check that our callback was called EXPECT_EQ("lease6_rebind", callback_name_); l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); // Check that the old values are still there and they were not // updated by the rebinding EXPECT_NE(l->preferred_lft_, subnet_->getPreferred()); EXPECT_NE(l->valid_lft_, subnet_->getValid()); EXPECT_NE(l->cltt_, time(NULL)); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(req); } // This test verifies that incoming (positive) RELEASE can be handled properly, // that a REPLY is generated, that the response has status code and that the // lease is indeed removed from the database. // // expected: // - returned REPLY message has copy of client-id // - returned REPLY message has server-id // - returned REPLY message has IA that does not include an IAADDR // - lease is actually removed from LeaseMgr TEST_F(HooksDhcpv6SrvTest, lease6ReleaseSimple) { NakedDhcpv6Srv srv(0); CfgMgr::instance().getCurrentCfg()->getCfgExpiration()->setFlushReclaimedTimerWaitTime(0); CfgMgr::instance().getCurrentCfg()->getCfgExpiration()->setHoldReclaimedTime(0); // Install lease6_release_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_release", lease6_release_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Let's create a RELEASE Pkt6Ptr rel = Pkt6Ptr(new Pkt6(DHCPV6_RELEASE, 1234)); rel->setRemoteAddr(IOAddress("fe80::abcd")); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr released_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(released_addr_opt); rel->addOption(ia); rel->addOption(clientid); // Server-id is mandatory in RELEASE rel->addOption(srv.getServerID()); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRelease(rel); ASSERT_TRUE(reply); // Check that the callback called is indeed the one we installed EXPECT_EQ("lease6_release", callback_name_); // Check that appropriate parameters are passed to the callouts EXPECT_TRUE(callback_qry_pkt6_); EXPECT_TRUE(callback_lease6_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("lease6"); sort(callback_argument_names_.begin(), callback_argument_names_.end()); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Check that the lease is really gone in the database // get lease by address l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_FALSE(l); // Get lease by subnetid/duid/iaid combination l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, *duid_, iaid, subnet_->getID()); ASSERT_FALSE(l); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(rel); } // This test verifies that incoming (positive) RELEASE can be handled properly, // that a REPLY is generated, that the response has status code and that the // lease is indeed removed from the database. // This test is using infinite lease with lease affinity enabled. // // expected: // - returned REPLY message has copy of client-id // - returned REPLY message has server-id // - returned REPLY message has IA that does not include an IAADDR // - lease is actually removed from LeaseMgr TEST_F(HooksDhcpv6SrvTest, lease6ReleaseSimpleInfiniteLease) { NakedDhcpv6Srv srv(0); // Install lease6_release_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_release", lease6_release_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; lease->valid_lft_ = Lease::INFINITY_LFT; lease->current_valid_lft_ = Lease::INFINITY_LFT; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Let's create a RELEASE Pkt6Ptr rel = Pkt6Ptr(new Pkt6(DHCPV6_RELEASE, 1234)); rel->setRemoteAddr(IOAddress("fe80::abcd")); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr released_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(released_addr_opt); rel->addOption(ia); rel->addOption(clientid); // Server-id is mandatory in RELEASE rel->addOption(srv.getServerID()); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRelease(rel); ASSERT_TRUE(reply); // Check that the callback called is indeed the one we installed EXPECT_EQ("lease6_release", callback_name_); // Check that appropriate parameters are passed to the callouts EXPECT_TRUE(callback_qry_pkt6_); EXPECT_TRUE(callback_lease6_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("lease6"); sort(callback_argument_names_.begin(), callback_argument_names_.end()); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Check that the lease is really gone in the database // get lease by address l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_FALSE(l); // Get lease by subnetid/duid/iaid combination l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, *duid_, iaid, subnet_->getID()); ASSERT_FALSE(l); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(rel); } // This test verifies that incoming (positive) RELEASE can be handled properly, // that a REPLY is generated, that the response has status code and that the // lease is indeed removed from the database. // // expected: // - returned REPLY message has copy of client-id // - returned REPLY message has server-id // - returned REPLY message has IA that does not include an IAADDR // - lease is actually removed from LeaseMgr TEST_F(HooksDhcpv6SrvTest, lease6ReleaseSimpleNoDelete) { NakedDhcpv6Srv srv(0); // Install lease6_release_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_release", lease6_release_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Let's create a RELEASE Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RELEASE, 1234)); req->setRemoteAddr(IOAddress("fe80::abcd")); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr released_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(released_addr_opt); req->addOption(ia); req->addOption(clientid); // Server-id is mandatory in RELEASE req->addOption(srv.getServerID()); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRelease(req); ASSERT_TRUE(reply); // Check that the callback called is indeed the one we installed EXPECT_EQ("lease6_release", callback_name_); // Check that appropriate parameters are passed to the callouts EXPECT_TRUE(callback_qry_pkt6_); EXPECT_TRUE(callback_lease6_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("lease6"); sort(callback_argument_names_.begin(), callback_argument_names_.end()); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Check that the lease is not gone in the database // get lease by address l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); EXPECT_EQ(l->valid_lft_, 0); EXPECT_EQ(l->preferred_lft_, 0); // Get lease by subnetid/duid/iaid combination l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, *duid_, iaid, subnet_->getID()); ASSERT_TRUE(l); EXPECT_EQ(l->valid_lft_, 0); EXPECT_EQ(l->preferred_lft_, 0); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(req); } // This is a variant of the previous test that tests that callouts are // properly invoked for the prefix release case. TEST_F(HooksDhcpv6SrvTest, lease6ReleasePrefixSimple) { NakedDhcpv6Srv srv(0); CfgMgr::instance().getCurrentCfg()->getCfgExpiration()->setFlushReclaimedTimerWaitTime(0); CfgMgr::instance().getCurrentCfg()->getCfgExpiration()->setHoldReclaimedTime(0); // Install lease6_release_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_release", lease6_release_callout)); const IOAddress prefix("2001:db8:1:2:1::"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the prefix we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_PD, prefix)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_PD, prefix, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 80)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, prefix); ASSERT_TRUE(l); // Let's create a RELEASE Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RELEASE, 1234)); req->setRemoteAddr(IOAddress("fe80::abcd")); boost::shared_ptr ia = generateIA(D6O_IA_PD, iaid, 1500, 3000); OptionPtr released_addr_opt(new Option6IAPrefix(D6O_IAPREFIX, prefix, 80, 300, 500)); ia->addOption(released_addr_opt); req->addOption(ia); req->addOption(clientid); // Server-id is mandatory in RELEASE req->addOption(srv.getServerID()); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRelease(req); ASSERT_TRUE(reply); // Check that the callback called is indeed the one we installed EXPECT_EQ("lease6_release", callback_name_); // Check that appropriate parameters are passed to the callouts EXPECT_TRUE(callback_qry_pkt6_); EXPECT_TRUE(callback_lease6_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("lease6"); sort(callback_argument_names_.begin(), callback_argument_names_.end()); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Check that the lease is really gone in the database // get lease by address l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, prefix); ASSERT_FALSE(l); // Get lease by subnetid/duid/iaid combination l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, *duid_, iaid, subnet_->getID()); ASSERT_FALSE(l); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(req); } // This is a variant of the previous test that tests that callouts are // properly invoked for the prefix release case. // This test is using infinite lease with lease affinity enabled. TEST_F(HooksDhcpv6SrvTest, lease6ReleasePrefixSimpleInfiniteLease) { NakedDhcpv6Srv srv(0); // Install lease6_release_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_release", lease6_release_callout)); const IOAddress prefix("2001:db8:1:2:1::"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the prefix we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_PD, prefix)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_PD, prefix, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 80)); lease->cltt_ = 1234; lease->valid_lft_ = Lease::INFINITY_LFT; lease->current_valid_lft_ = Lease::INFINITY_LFT; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, prefix); ASSERT_TRUE(l); // Let's create a RELEASE Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RELEASE, 1234)); req->setRemoteAddr(IOAddress("fe80::abcd")); boost::shared_ptr ia = generateIA(D6O_IA_PD, iaid, 1500, 3000); OptionPtr released_addr_opt(new Option6IAPrefix(D6O_IAPREFIX, prefix, 80, 300, 500)); ia->addOption(released_addr_opt); req->addOption(ia); req->addOption(clientid); // Server-id is mandatory in RELEASE req->addOption(srv.getServerID()); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRelease(req); ASSERT_TRUE(reply); // Check that the callback called is indeed the one we installed EXPECT_EQ("lease6_release", callback_name_); // Check that appropriate parameters are passed to the callouts EXPECT_TRUE(callback_qry_pkt6_); EXPECT_TRUE(callback_lease6_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("lease6"); sort(callback_argument_names_.begin(), callback_argument_names_.end()); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Check that the lease is really gone in the database // get lease by address l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, prefix); ASSERT_FALSE(l); // Get lease by subnetid/duid/iaid combination l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, *duid_, iaid, subnet_->getID()); ASSERT_FALSE(l); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(req); } // This is a variant of the previous test that tests that callouts are // properly invoked for the prefix release case. TEST_F(HooksDhcpv6SrvTest, lease6ReleasePrefixSimpleNoDelete) { NakedDhcpv6Srv srv(0); // Install lease6_release_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_release", lease6_release_callout)); const IOAddress prefix("2001:db8:1:2:1::"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the prefix we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_PD, prefix)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_PD, prefix, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 80)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, prefix); ASSERT_TRUE(l); // Let's create a RELEASE Pkt6Ptr req = Pkt6Ptr(new Pkt6(DHCPV6_RELEASE, 1234)); req->setRemoteAddr(IOAddress("fe80::abcd")); boost::shared_ptr ia = generateIA(D6O_IA_PD, iaid, 1500, 3000); OptionPtr released_addr_opt(new Option6IAPrefix(D6O_IAPREFIX, prefix, 80, 300, 500)); ia->addOption(released_addr_opt); req->addOption(ia); req->addOption(clientid); // Server-id is mandatory in RELEASE req->addOption(srv.getServerID()); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRelease(req); ASSERT_TRUE(reply); // Check that the callback called is indeed the one we installed EXPECT_EQ("lease6_release", callback_name_); // Check that appropriate parameters are passed to the callouts EXPECT_TRUE(callback_qry_pkt6_); EXPECT_TRUE(callback_lease6_); // Check if all expected parameters were really received vector expected_argument_names; expected_argument_names.push_back("query6"); expected_argument_names.push_back("lease6"); sort(callback_argument_names_.begin(), callback_argument_names_.end()); sort(expected_argument_names.begin(), expected_argument_names.end()); EXPECT_TRUE(callback_argument_names_ == expected_argument_names); // Check that the lease is not gone in the database // get lease by address l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, prefix); ASSERT_TRUE(l); EXPECT_EQ(l->valid_lft_, 0); EXPECT_EQ(l->preferred_lft_, 0); // Get lease by subnetid/duid/iaid combination l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_PD, *duid_, iaid, subnet_->getID()); ASSERT_TRUE(l); EXPECT_EQ(l->valid_lft_, 0); EXPECT_EQ(l->preferred_lft_, 0); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(req); } // This test verifies that skip flag returned by a callout installed on the // lease6_release hook point will keep the lease. TEST_F(HooksDhcpv6SrvTest, lease6ReleaseSkip) { NakedDhcpv6Srv srv(0); // Install lease6_release_skip_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_release", lease6_release_skip_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Let's create a RELEASE Pkt6Ptr rel = Pkt6Ptr(new Pkt6(DHCPV6_RELEASE, 1234)); rel->setRemoteAddr(IOAddress("fe80::abcd")); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr released_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(released_addr_opt); rel->addOption(ia); rel->addOption(clientid); // Server-id is mandatory in RELEASE rel->addOption(srv.getServerID()); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRelease(rel); ASSERT_TRUE(reply); // Check that the callback called is indeed the one we installed EXPECT_EQ("lease6_release", callback_name_); // Check that the lease is still there // get lease by address l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Get lease by subnetid/duid/iaid combination l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, *duid_, iaid, subnet_->getID()); ASSERT_TRUE(l); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(rel); } // This test verifies that drop flag returned by a callout installed on the // lease6_release hook point will keep the lease. TEST_F(HooksDhcpv6SrvTest, lease6ReleaseDrop) { NakedDhcpv6Srv srv(0); // Install lease6_release_drop_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_release", lease6_release_drop_callout)); const IOAddress addr("2001:db8:1:1::cafe:babe"); const uint32_t iaid = 234; // Generate client-id also duid_ OptionPtr clientid = generateClientId(); // Check that the address we are about to use is indeed in pool ASSERT_TRUE(subnet_->inPool(Lease::TYPE_NA, addr)); // Note that preferred, valid, T1 and T2 timers and CLTT are set to invalid // value on purpose. They should be updated during RENEW. Lease6Ptr lease(new Lease6(Lease::TYPE_NA, addr, duid_, iaid, 501, 502, subnet_->getID(), HWAddrPtr(), 0)); lease->cltt_ = 1234; ASSERT_TRUE(LeaseMgrFactory::instance().addLease(lease)); // Check that the lease is really in the database Lease6Ptr l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Let's create a RELEASE Pkt6Ptr rel = Pkt6Ptr(new Pkt6(DHCPV6_RELEASE, 1234)); rel->setRemoteAddr(IOAddress("fe80::abcd")); boost::shared_ptr ia = generateIA(D6O_IA_NA, iaid, 1500, 3000); OptionPtr released_addr_opt(new Option6IAAddr(D6O_IAADDR, addr, 300, 500)); ia->addOption(released_addr_opt); rel->addOption(ia); rel->addOption(clientid); // Server-id is mandatory in RELEASE rel->addOption(srv.getServerID()); // Pass it to the server and hope for a response Pkt6Ptr reply = srv.processRelease(rel); ASSERT_TRUE(reply); // Check that the callback called is indeed the one we installed EXPECT_EQ("lease6_release", callback_name_); // Check that the lease is still there // get lease by address l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(l); // Get lease by subnetid/duid/iaid combination l = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, *duid_, iaid, subnet_->getID()); ASSERT_TRUE(l); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(rel); } // This test checks that the basic decline hook (lease6_decline) is // triggered properly. TEST_F(HooksDhcpv6SrvTest, lease6DeclineSimple) { IfaceMgrTestConfig test_config(true); // Install lease6_decline_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_decline", lease6_decline_callout)); HooksManager::setTestMode(true); // Get an address and decline it. DUIDs, IAID match and we send valid // address, so the decline procedure should be successful. Dhcp6Client client; acquireAndDecline(client, "01:02:03:04:05:06", 1234, "01:02:03:04:05:06", 1234, VALID_ADDR, SHOULD_PASS); // Check that the proper callback was called. EXPECT_EQ("lease6_decline", callback_name_); // And valid parameters were passed. ASSERT_TRUE(callback_qry_pkt6_); ASSERT_TRUE(callback_lease6_); // Test sanity check - it was a decline, right? EXPECT_EQ(DHCPV6_DECLINE, callback_qry_pkt6_->getType()); // Get the address from this decline. OptionPtr ia = callback_qry_pkt6_->getOption(D6O_IA_NA); ASSERT_TRUE(ia); boost::shared_ptr addr_opt = boost::dynamic_pointer_cast(ia->getOption(D6O_IAADDR)); ASSERT_TRUE(addr_opt); IOAddress addr(addr_opt->getAddress()); // Now get a lease from the database. Lease6Ptr from_mgr = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(from_mgr); // Now check that it's indeed declined. EXPECT_EQ(Lease::STATE_DECLINED, from_mgr->state_); // And that the parameters passed to callout are consistent with the database EXPECT_EQ(addr, from_mgr->addr_); EXPECT_EQ(addr, callback_lease6_->addr_); // Pkt passed to a callout must be configured to copy retrieved options. EXPECT_TRUE(callback_qry_options_copy_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // Test that the lease6_decline hook point can handle SKIP status. TEST_F(HooksDhcpv6SrvTest, lease6DeclineSkip) { IfaceMgrTestConfig test_config(true); // Install lease6_decline_skip_callout. It will set the status to skip EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_decline", lease6_decline_skip_callout)); HooksManager::setTestMode(true); // Get an address and decline it. DUIDs, IAID match and we send valid // address, so the decline procedure should be successful. Dhcp6Client client; acquireAndDecline(client, "01:02:03:04:05:06", 1234, "01:02:03:04:05:06", 1234, VALID_ADDR, SHOULD_FAIL); // Check that the proper callback was called. EXPECT_EQ("lease6_decline", callback_name_); // And valid parameters were passed. ASSERT_TRUE(callback_qry_pkt6_); ASSERT_TRUE(callback_lease6_); // Test sanity check - it was a decline, right? EXPECT_EQ(DHCPV6_DECLINE, callback_qry_pkt6_->getType()); // Get the address from this decline. OptionPtr ia = callback_qry_pkt6_->getOption(D6O_IA_NA); ASSERT_TRUE(ia); boost::shared_ptr addr_opt = boost::dynamic_pointer_cast(ia->getOption(D6O_IAADDR)); ASSERT_TRUE(addr_opt); IOAddress addr(addr_opt->getAddress()); // Now get a lease from the database. Lease6Ptr from_mgr = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(from_mgr); // Now check that it's NOT declined. EXPECT_EQ(Lease::STATE_DEFAULT, from_mgr->state_); // And that the parameters passed to callout are consistent with the database EXPECT_EQ(addr, from_mgr->addr_); EXPECT_EQ(addr, callback_lease6_->addr_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // Test that the lease6_decline hook point can handle DROP status. TEST_F(HooksDhcpv6SrvTest, lease6DeclineDrop) { IfaceMgrTestConfig test_config(true); // Install lease6_decline_drop_callout. It will set the status to drop EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "lease6_decline", lease6_decline_drop_callout)); HooksManager::setTestMode(true); // Get an address and decline it. DUIDs, IAID match and we send valid // address, so it would work, but the callout sets status to DROP, so // the server should not update the lease and should not send back any // packets. Dhcp6Client client; acquireAndDecline(client, "01:02:03:04:05:06", 1234, "01:02:03:04:05:06", 1234, VALID_ADDR, SHOULD_FAIL); // Check that the proper callback was called. EXPECT_EQ("lease6_decline", callback_name_); // And valid parameters were passed. ASSERT_TRUE(callback_qry_pkt6_); ASSERT_TRUE(callback_lease6_); // Test sanity check - it was a decline, right? EXPECT_EQ(DHCPV6_DECLINE, callback_qry_pkt6_->getType()); // Get the address from this decline. OptionPtr ia = callback_qry_pkt6_->getOption(D6O_IA_NA); ASSERT_TRUE(ia); boost::shared_ptr addr_opt = boost::dynamic_pointer_cast(ia->getOption(D6O_IAADDR)); ASSERT_TRUE(addr_opt); IOAddress addr(addr_opt->getAddress()); // Now get a lease from the database. Lease6Ptr from_mgr = LeaseMgrFactory::instance().getLease6(Lease::TYPE_NA, addr); ASSERT_TRUE(from_mgr); // Now check that it's NOT declined. EXPECT_EQ(Lease::STATE_DEFAULT, from_mgr->state_); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(client.getContext().query_); } // Should test with one NA and two addresses but need an example first... // Checks if callout installed on host6_identifier can generate an // identifier and whether that identifier is actually used. TEST_F(HooksDhcpv6SrvTest, host6Identifier) { // Configure 2 subnets, both directly reachable over local interface // (let's not complicate the matter with relays) string config = "{ \"interfaces-config\": {\n" " \"interfaces\": [ \"*\" ]\n" "},\n" "\"preferred-lifetime\": 3000,\n" "\"rebind-timer\": 2000,\n" "\"renew-timer\": 1000,\n" "\"host-reservation-identifiers\": [ \"flex-id\" ],\n" "\"subnet6\": [ {\n" " \"pools\": [ { \"pool\": \"2001:db8::/64\" } ],\n" " \"subnet\": \"2001:db8::/48\", \n" " \"interface\": \"" + valid_iface_ + "\",\n" " \"reservations\": [\n" " {\n" " \"flex-id\": \"'foo'\",\n" " \"ip-addresses\": [ \"2001:db8::f00\" ]\n" " }\n" " ]\n" " } ]\n," "\"valid-lifetime\": 4000 }"; ConstElementPtr json; EXPECT_NO_THROW(json = parseDHCP6(config)); ConstElementPtr status; // Configure the server and make sure the config is accepted EXPECT_NO_THROW(status = configureDhcp6Server(*srv_, json)); ASSERT_TRUE(status); comment_ = isc::config::parseAnswer(rcode_, status); ASSERT_EQ(0, rcode_); CfgMgr::instance().commit(); // Install host6_identifier_foo_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "host6_identifier", host6_identifier_foo_callout)); // Prepare solicit packet. Server should select first subnet for it Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234)); sol->setRemoteAddr(IOAddress("fe80::abcd")); sol->setIface(valid_iface_); sol->setIndex(valid_ifindex_); sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000)); OptionPtr clientid = generateClientId(); sol->addOption(clientid); // Pass it to the server and get an advertise AllocEngine::ClientContext6 ctx; bool drop = !srv_->earlyGHRLookup(sol, ctx); ASSERT_FALSE(drop); srv_->initContext(sol, ctx, drop); ASSERT_FALSE(drop); Pkt6Ptr adv = srv_->processSolicit(ctx); // Check if we get response at all ASSERT_TRUE(adv); // Check that the callback called is indeed the one we installed EXPECT_EQ("host6_identifier", callback_name_); // Check that pkt6 argument passing was successful and returned proper value EXPECT_TRUE(callback_qry_pkt6_.get() == sol.get()); // Now check if we got the reserved address OptionPtr tmp = adv->getOption(D6O_IA_NA); ASSERT_TRUE(tmp); // Check that IA_NA was returned and that there's an address included boost::shared_ptr addr_opt; ASSERT_NO_FATAL_FAILURE(addr_opt = checkIA_NA(adv, 234, 1000, 2000)); ASSERT_TRUE(addr_opt); ASSERT_EQ("2001:db8::f00", addr_opt->getAddress().toText()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Checks if callout installed on host6_identifier can generate an identifier of // other type. This particular callout always returns hwaddr. TEST_F(HooksDhcpv6SrvTest, host6IdentifierHWAddr) { // Configure 2 subnets, both directly reachable over local interface // (let's not complicate the matter with relays) string config = "{ \"interfaces-config\": {\n" " \"interfaces\": [ \"*\" ]\n" "},\n" "\"preferred-lifetime\": 3000,\n" "\"rebind-timer\": 2000,\n" "\"renew-timer\": 1000,\n" "\"host-reservation-identifiers\": [ \"flex-id\" ],\n" "\"subnet6\": [ {\n" " \"pools\": [ { \"pool\": \"2001:db8::/64\" } ],\n" " \"subnet\": \"2001:db8::/48\", \n" " \"interface\": \"" + valid_iface_ + "\",\n" " \"reservations\": [\n" " {\n" " \"hw-address\": \"00:01:02:03:04:05\",\n" " \"ip-addresses\": [ \"2001:db8::f00\" ]\n" " }\n" " ]\n" " } ]\n," "\"valid-lifetime\": 4000 }"; ConstElementPtr json; EXPECT_NO_THROW(json = parseDHCP6(config)); ConstElementPtr status; // Configure the server and make sure the config is accepted EXPECT_NO_THROW(status = configureDhcp6Server(*srv_, json)); ASSERT_TRUE(status); comment_ = isc::config::parseAnswer(rcode_, status); ASSERT_EQ(0, rcode_); CfgMgr::instance().commit(); // Install host6_identifier_hwaddr_callout EXPECT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "host6_identifier", host6_identifier_hwaddr_callout)); // Prepare solicit packet. Server should select first subnet for it Pkt6Ptr sol = Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 1234)); sol->setRemoteAddr(IOAddress("fe80::abcd")); sol->setIface(valid_iface_); sol->setIndex(valid_ifindex_); sol->addOption(generateIA(D6O_IA_NA, 234, 1500, 3000)); OptionPtr clientid = generateClientId(); sol->addOption(clientid); // Pass it to the server and get an advertise AllocEngine::ClientContext6 ctx; bool drop = !srv_->earlyGHRLookup(sol, ctx); ASSERT_FALSE(drop); srv_->initContext(sol, ctx, drop); ASSERT_FALSE(drop); Pkt6Ptr adv = srv_->processSolicit(ctx); // Check if we get response at all ASSERT_TRUE(adv); // Check that the callback called is indeed the one we installed EXPECT_EQ("host6_identifier", callback_name_); // Check that pkt6 argument passing was successful and returned proper value EXPECT_TRUE(callback_qry_pkt6_.get() == sol.get()); // Now check if we got the reserved address OptionPtr tmp = adv->getOption(D6O_IA_NA); ASSERT_TRUE(tmp); // Check that IA_NA was returned and that there's an address included boost::shared_ptr addr_opt; ASSERT_NO_FATAL_FAILURE(addr_opt = checkIA_NA(adv, 234, 1000, 2000)); ASSERT_TRUE(addr_opt); ASSERT_EQ("2001:db8::f00", addr_opt->getAddress().toText()); // Check if the callout handle state was reset after the callout. checkCalloutHandleReset(sol); } // Verifies that libraries are unloaded by server destruction // The callout libraries write their library index number to a marker // file upon load and unload, making it simple to test whether or not // the load and unload callouts have been invoked. TEST_F(LoadUnloadDhcpv6SrvTest, unloadLibraries) { ASSERT_NO_THROW(server_.reset(new NakedDhcpv6Srv(0))); // Ensure no marker files to start with. ASSERT_FALSE(checkMarkerFileExists(LOAD_MARKER_FILE)); ASSERT_FALSE(checkMarkerFileExists(UNLOAD_MARKER_FILE)); // Load the test libraries HookLibsCollection libraries; libraries.push_back(make_pair(std::string(CALLOUT_LIBRARY_1), ConstElementPtr())); libraries.push_back(make_pair(std::string(CALLOUT_LIBRARY_2), ConstElementPtr())); ASSERT_TRUE(HooksManager::loadLibraries(libraries)); // Verify that they load functions created the LOAD_MARKER_FILE // and that its contents are correct: "12" - the first library // appends "1" to the file, the second appends "2"). Also // check that the unload marker file does not yet exist. EXPECT_TRUE(checkMarkerFile(LOAD_MARKER_FILE, "12")); EXPECT_FALSE(checkMarkerFileExists(UNLOAD_MARKER_FILE)); // Destroy the server, instance which should unload the libraries. server_.reset(); // Check that the libraries were unloaded. The libraries are // unloaded in the reverse order to which they are loaded, and // this should be reflected in the unload file. EXPECT_TRUE(checkMarkerFile(UNLOAD_MARKER_FILE, "21")); EXPECT_TRUE(checkMarkerFile(LOAD_MARKER_FILE, "12")); } // Verifies that libraries incompatible with multi threading are not loaded by // the server. // The callout libraries write their library index number to a marker // file upon load and unload, making it simple to test whether or not // the load and unload callouts have been invoked. TEST_F(LoadUnloadDhcpv6SrvTest, failLoadIncompatibleLibraries) { ASSERT_NO_THROW(server_.reset(new NakedDhcpv6Srv(0))); // Ensure no marker files to start with. ASSERT_FALSE(checkMarkerFileExists(LOAD_MARKER_FILE)); ASSERT_FALSE(checkMarkerFileExists(UNLOAD_MARKER_FILE)); // Load the test libraries HookLibsCollection libraries; libraries.push_back(make_pair(std::string(CALLOUT_LIBRARY_2), ConstElementPtr())); ASSERT_FALSE(HooksManager::loadLibraries(libraries, true)); // The library is missing multi_threading_compatible function so loading // should fail EXPECT_FALSE(checkMarkerFileExists(LOAD_MARKER_FILE)); EXPECT_FALSE(checkMarkerFileExists(UNLOAD_MARKER_FILE)); libraries.clear(); libraries.push_back(make_pair(std::string(CALLOUT_LIBRARY_3), ConstElementPtr())); ASSERT_FALSE(HooksManager::loadLibraries(libraries, true)); // The library is not multi threading compatible so loading should fail EXPECT_FALSE(checkMarkerFileExists(LOAD_MARKER_FILE)); EXPECT_FALSE(checkMarkerFileExists(UNLOAD_MARKER_FILE)); // Destroy the server, instance which should unload the libraries. server_.reset(); // Check that the libraries were unloaded. The libraries are // unloaded in the reverse order to which they are loaded, and // this should be reflected in the unload file. EXPECT_FALSE(checkMarkerFileExists(LOAD_MARKER_FILE)); EXPECT_FALSE(checkMarkerFileExists(UNLOAD_MARKER_FILE)); } // Checks if callouts installed on the dhcp6_srv_configured ared indeed called // and all the necessary parameters are passed. TEST_F(LoadUnloadDhcpv6SrvTest, Dhcpv6SrvConfigured) { for (string parameters : { "", R"(, "parameters": { "mode": "fail-without-error" } )", R"(, "parameters": { "mode": "fail-with-error" } )"}) { reset(); boost::shared_ptr srv(new ControlledDhcpv6Srv(0)); // Ensure no marker files to start with. ASSERT_FALSE(checkMarkerFileExists(LOAD_MARKER_FILE)); ASSERT_FALSE(checkMarkerFileExists(UNLOAD_MARKER_FILE)); ASSERT_FALSE(checkMarkerFileExists(SRV_CONFIG_MARKER_FILE)); // Minimal valid configuration for the server. It includes the // section which loads the callout library #3, which implements // dhcp6_srv_configured callout. MT needs to be disabled // since the library is single-threaded. string config_str = "{" " \"interfaces-config\": {" " \"interfaces\": [ ]" " }," " \"preferred-lifetime\": 3000," " \"rebind-timer\": 2000," " \"renew-timer\": 1000," " \"subnet6\": [ ]," " \"valid-lifetime\": 4000," " \"lease-database\": {" " \"type\": \"memfile\"," " \"persist\": false" " }," " \"hooks-libraries\": [" " {" " \"library\": \"" + std::string(CALLOUT_LIBRARY_3) + "\"" + parameters + " }" R"( ], "multi-threading": { "enable-multi-threading": false } })"; ConstElementPtr config = Element::fromJSON(config_str); // Configure the server. ConstElementPtr answer; ASSERT_NO_THROW(answer = srv->processConfig(config)); // Make sure there were no errors. int status_code; parseAnswer(status_code, answer); if (parameters.empty()) { EXPECT_EQ(0, status_code); EXPECT_EQ(answer->str(), R"({ "result": 0, "text": "Configuration successful." })"); } else { EXPECT_EQ(1, status_code); if (parameters.find("fail-without-error") != string::npos) { EXPECT_EQ(answer->str(), R"({ "result": 1, "text": "unknown error" })"); } else if (parameters.find("fail-with-error") != string::npos) { EXPECT_EQ(answer->str(), R"({ "result": 1, "text": "user explicitly configured me to fail" })"); } else { GTEST_FAIL() << "unchecked test case"; } } // The hook library should have been loaded. EXPECT_TRUE(checkMarkerFile(LOAD_MARKER_FILE, "3")); EXPECT_FALSE(checkMarkerFileExists(UNLOAD_MARKER_FILE)); // The dhcp6_srv_configured should have been invoked and the provided // parameters should be recorded. EXPECT_TRUE(checkMarkerFile(SRV_CONFIG_MARKER_FILE, "3io_contextjson_confignetwork_stateserver_config")); // Destroy the server, instance which should unload the libraries. srv.reset(); // The server was destroyed, so the unload() function should now // include the library number in its marker file. EXPECT_TRUE(checkMarkerFile(LOAD_MARKER_FILE, "3")); EXPECT_TRUE(checkMarkerFile(UNLOAD_MARKER_FILE, "3")); EXPECT_TRUE(checkMarkerFile(SRV_CONFIG_MARKER_FILE, "3io_contextjson_confignetwork_stateserver_config")); } } // This test verifies that parked-packet-limit is properly enforced. TEST_F(HooksDhcpv6SrvTest, leases6ParkedPacketLimit) { IfaceMgrTestConfig test_config(true); string config = "{ \"interfaces-config\": {" " \"interfaces\": [ \"*\" ]" "}," "\"parked-packet-limit\": 1," "\"preferred-lifetime\": 3000," "\"rebind-timer\": 2000, " "\"renew-timer\": 1000, " "\"subnet6\": [ { " " \"pools\": [ { \"pool\": \"2001:db8:1::/64\" } ]," " \"subnet\": \"2001:db8:1::/48\", " " \"interface\": \"eth1\" " " } ]," "\"valid-lifetime\": 4000 }"; ASSERT_NO_THROW(configure(config, *srv_)); // Verify we have no packets parked. const auto& parking_lot = ServerHooks::getServerHooks() .getParkingLotPtr("leases6_committed"); ASSERT_TRUE(parking_lot); ASSERT_EQ(0, parking_lot->size()); // Statistic should not show any drops. EXPECT_EQ(0, getStatistic("pkt6-receive-drop")); // This callout uses provided IO service object to post a function // that unparks the packet. The packet is parked and can be unparked // by simply calling IOService::poll. ASSERT_NO_THROW(HooksManager::preCalloutsLibraryHandle().registerCallout( "leases6_committed", leases6_committed_park_callout)); // Create first client and perform SARR. Dhcp6Client client1(srv_); client1.setInterface("eth1"); client1.requestAddress(0xabca, IOAddress("2001:db8:1::28")); ASSERT_NO_THROW(client1.doSARR()); // We should be offered an address but the REPLY should not arrive // at this point, because the packet is parked. ASSERT_FALSE(client1.getContext().response_); // Check that the callback called is indeed the one we installed EXPECT_EQ("leases6_committed", callback_name_); // Verify we have one parked packet and no drops. ASSERT_EQ(1, parking_lot->size()); EXPECT_EQ(0, getStatistic("pkt6-receive-drop")); // Reset all indicators because we'll be now creating a second client. resetCalloutBuffers(); // Create the second client to test that it may communicate with the // server while the previous packet is parked. Dhcp6Client client2(srv_); client2.setInterface("eth1"); client2.requestAddress(0xabca, IOAddress("2001:db8:1::29")); ASSERT_NO_THROW(client2.doSARR()); // The ADVERTISE should have been returned but not REPLY, this // packet should have been dropped. ASSERT_FALSE(client2.getContext().response_); // Check that no callback was called. EXPECT_EQ("", callback_name_); // Verify we have one parked packet and one drop. ASSERT_EQ(1, parking_lot->size()); EXPECT_EQ(1, getStatistic("pkt6-receive-drop")); // There should now be one action scheduled on our IO service // by the invoked callout. It should unpark the REPLY message // for client1. ASSERT_NO_THROW(io_service_->poll()); // Receive and check the first response. ASSERT_NO_THROW(client1.receiveResponse()); Pkt6Ptr rsp = client1.getContext().response_; ASSERT_TRUE(rsp); EXPECT_EQ(DHCPV6_REPLY, rsp->getType()); EXPECT_TRUE(client1.hasLeaseForAddress(IOAddress("2001:db8:1::28"))); // Verify we have no parked packets and one drop. ASSERT_EQ(0, parking_lot->size()); EXPECT_EQ(1, getStatistic("pkt6-receive-drop")); // Should not anything to receive for client2. ASSERT_NO_THROW(client2.receiveResponse()); ASSERT_FALSE(client2.getContext().response_); // Reset all indicators because we'll be now creating a second client. resetCalloutBuffers(); // Retry the second client and verify that it is allowed to park // and be responded to. client2.requestAddress(0xabcb, IOAddress("2001:db8:1::29")); ASSERT_NO_THROW(client2.doSARR()); // The ADVERTISE should have been returned but not REPLY, that // packet should have been parked. ASSERT_FALSE(client2.getContext().response_); // Check that the callback was called. EXPECT_EQ("leases6_committed", callback_name_); // Verify we again have one parked packet and one drop. ASSERT_EQ(1, parking_lot->size()); EXPECT_EQ(1, getStatistic("pkt6-receive-drop")); // There should now be one action scheduled on our IO service // by the invoked callout. It should unpark the REPLY message // for client2. ASSERT_NO_THROW(io_service_->poll()); // Receive and check the first response. ASSERT_NO_THROW(client2.receiveResponse()); rsp = client2.getContext().response_; ASSERT_TRUE(rsp); EXPECT_EQ(DHCPV6_REPLY, rsp->getType()); EXPECT_TRUE(client2.hasLeaseForAddress(IOAddress("2001:db8:1::29"))); // Verify we no parked packets and one drop. ASSERT_EQ(0, parking_lot->size()); EXPECT_EQ(1, getStatistic("pkt6-receive-drop")); } } // namespace